Courses

Advanced Topics in Materials Processing I: Metals and Metallic Matrix Composites
COD Workload Description
94487-03 45 Casting; mechanical shaping; near net shape; welding processes; thermal treatments; surface treatments; machining; processes of fabrication of metallic matrix composites: processing from the liquid phase (compocasting, vortex process), processing from the solid phase (powder metallurgy, bonding of metallic sheets through diffusion, squeeze casting).
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Advanced Topics in Materials Processing IV: Surface, Films and Thin Films
COD Workload Description
54449-03 45 Thermodynamics, vacuum physics, surface treatment, plasma nitridation and oxidation, physical vapor deposition (effusion, resistive evaporation, magnetron sputtering, ion platting, arc deposition, MBE, IBAD and DIBS), chemical vapor deposition (CVD, PECVD and MOCVD), electrodeposition.
Professors Home time Lattes
ROBERTO HUBLER 36 years and 3 months Link
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Applied Mathematics
COD Workload Description
04424-03 45 Vector calculus; matrix algebra; ordinary differential equations; partial differential equations.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Biocompatible Materials
COD Workload Description
54424-03 45 The definition of biomaterials; structure and property of biological materials: proteins and polysaccharides; structure and property of biological tissues: mineralized tissues (bones and teeth) and tissues rich in collagen. Elastic tissues: composition, structure and properties. Tissue response to implants: scarring and inflammation; biocompatibility; body response to implants: cell response, systemic effects. Metallic implant materials: stainless steel; cobalt-based alloys; titanium and titanium-based alloys; other metals; deterioration of metallic implant materials. Ceramic implant materials: aluminum oxide; hydroxylapatite; glass ceramics. Polymeric implant materials: polyolefins, polyamides, acrylic polymers, rubbers, high-resistance thermoplastic materials; deterioration of polymers: chemical and mechanical effects. Composite materials; mechanical properties of biocompatible materials; implants for soft tissue replacement; implants for hard tissue replacement;
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Biodegradable Polymers
COD Workload Description
54439-03 45 Biodegradable polymers: general introduction, synthesis processes and properties. Polymers obtained from renewable raw materials. Blends and biodegradable composites. Degradation and biodegradation mechanisms. Biodegradation assessment methods. Ecotoxicity aspects in polymer biodegradation and environmental impacts.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Clean Technologies
COD Workload Description
64483-03 45 Cleaner production, environmental norms and legislation. Industrial solid waste. Energetic materials. Advanced Processes of Effluent Treatment. Life Cycle Analysis. Case studies.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Design for Sustainable Systems
COD Workload Description
1987K-03 45 The course presents analytical and methodological background for designing solutions to complex demands related to sustainability. State of the art design for sustainability frameworks are discussed, Life Cycle Thinking and Managent, Systems thinking and design strategies from product focused approaches to socio-technical system innovative projects.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Engineering and Materials Technology Doctorate Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Design for Sustainable Systems
COD Workload Description
198F9-03 45 The course presents analytical and methodological background for designing solutions to complex demands related to sustainability. State of the art design for sustainability frameworks are discussed, Life Cycle Thinking and Managent, Systems thinking and design strategies from product focused approaches to socio-technical system innovative projects.
Professors Home time Lattes
MARCUS SEFERIN 27 years and 8 months Link
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Engineering and Materials Technology Doctorate Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Digital Entrepreneurship - Transforming Knowledge into Development
COD Workload Description
1982K-02 30 This course aims to present the main concepts associated with digital entrepreneurship and the transformation of scientific knowledge in development for society. The following points will be addressed: Entrepreneurship, startups, business model, lean startup, minimum viable product, and real cases of transforming scientific knowledge into innovation and development through entrepreneurship.
Professors Home time Lattes
JORGE LUIS NICOLAS AUDY 39 years and 7 months Link
RAFAEL PRIKLADNICKI 20 years and 8 months Link
Concentration area Type Required
Computer Science Master's Not required
Computer Science Doctorate Not required
Engineering and Materials Technology Master's Not required
Engineering and Materials Technology Doctorate Not required
Materials and Related Processes Doctorate Not required
Scientific Education Master's Not required
Scientific Education Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Learning, teaching and teacher education on Science and Mathematics This line involves knowledge production on the teaching and learning of Science and Mathematics, related to education through research, to interdisciplinarity and transdisciplinarity, to the modeling processes in Science and Mathematics, associated with the initial and continuing education of teachers in Basic and Higher Education.
Culture, Epistemology and Science Education Culture, Epistemology and Scientific Education This line addresses knowledge production on historical, epistemological and sociocultural aspects related to scientific, mathematical and technological development, as well as to the popularization of Science and Mathematics in formal and non-formal learning settings.
Tecnology in Science and Mathematics Education This line addresses knowledge production on information and communication technologies to support the teaching and learning processes in Science and Mathematics in both classroom and also in distance learning.
Functional Verification of Digital Systems II
COD Workload Description
19854-02 30 Review hardware verification languages; Languages to describe assertions; fault simulation; equivalence verification; property verification; Formal verification methods for VLSI
No offer for current semester
Concentration area Type Required
Computer Science Master's Not required
Computer Science Doctorate Not required
Engineering and Materials Technology Master's Not required
Engineering and Materials Technology Doctorate Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Fundamentals of Materials Science
COD Workload Description
94432-03 45 Atomic structure and its interactions, crystalline and amorphous materials, crystalline imperfections, atomic movement mechanisms (diffusion), mechanical properties of metals, equilibrium diagrams, metastable phases, thermal treatments and microstructure control, corrosion and surface treatments, the ceramic phases, their structures and behavior.
Professors Home time Lattes
ELEANI MARIA DA COSTA 26 years and 8 months Link
RICARDO MEURER PAPALEO 34 years and 8 months Link
CARLOS ALEXANDRE DOS SANTOS 19 years and 3 months Link
Concentration area Type Required
Engineering and Materials Technology Master's Required
Materials and Related Processes Doctorate Required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Fundamentals of Nanoscience and Nanotechnology
COD Workload Description
54448-03 45 Properties of materials under confinement. Quantum behavior in nanostructures. Bottom-up nanostructuring. Top-down nanostructuring: design and submicrometric scale standards. Techniques for preferential deletion of materials.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Instrumentation
COD Workload Description
94434-03 45 Experimental data analysis; fundamental characteristics of sensors; electronic interface circuits; mechanical and electrical sensors; thermal and optical sensors; semiconductor sensors; radiation measurement; transmittance measurement; analog measurement techniques; data acquisition techniques; accessing, trying out and processing data using computers; signal processing; applications of analog-digital conversion.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Materials Characterization I
COD Workload Description
94455-03 45 Infrared spectroscopy, raman spectroscopy, ultraviolet-visible spectroscopy, nuclear magnetic resonance, atomic spectroscopy, chromatography, mass spectroscopy, thermal analysis.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Materials Characterization II
COD Workload Description
94456-03 45 Ion Spectroscopy, gamma nuclear resonance, X-ray analysis, microscopies, tribological testing, electrical measurements.
Professors Home time Lattes
ELEANI MARIA DA COSTA 26 years and 8 months Link
RICARDO MEURER PAPALEO 34 years and 8 months Link
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Materials Structure and Behavior
COD Workload Description
94462-03 45 Diffraction in crystals; mechanical and thermal proprieties; energy bands; electrical, optical and magnetic properties.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Materials and Processes for Carbon Capture and Storage
COD Workload Description
54446-03 45 CO2 separation and capture technologies. CO2 transport and geological storage in oil fields, salt formations and coal seams. Additional hydrocarbons production from storage in oil fields and coal seams. Wellbore integrity focusing on material degradation applied in wells construction. Environmental performance assessment of CO2 capture and storage processes.
Professors Home time Lattes
SANDRA MARA OLIVEIRA EINLOFT 28 years and 8 months Link
MARCUS SEFERIN 27 years and 8 months Link
FELIPE DALLA VECCHIA 13 years and 2 months Link
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Materials and Technologies for the Mitigation of Environmental Impacts
COD Workload Description
54445-03 45 Introduction to clime change; materials and technologies for the mitigation of environmental impacts; carbonation of minerals and industrial residues for the reduction of CO2 emissions.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic and Composite Materials
COD Workload Description
84417-03 45 This course will look at the properties, characteristics and processing of metallic and composite materials.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Nanostructured Materials
COD Workload Description
54447-03 45 Nanocomposites. Nanotechnology applied to energy. Biomedical applications of nanotechnology. Molecular recognition in a nanometric scale. Nanotechnology and the environment.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Numerical Methods
COD Workload Description
9441R-03 45 Interpolation; numerical differentiation; numerical integration; numerical solution for ordinary differential equations; numerical solution for partial differential equations; discrete methods.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Engineering and Materials Technology Doctorate Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Physical-Chemistry of Surfaces and Interfaces
COD Workload Description
94463-03 45 Kinetic theory of gases, properties of liquid surfaces, surfactants, colloidal systems, growth and structure of solid surfaces, adsorption, catalytic activity of surfaces.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Polymeric Materials
COD Workload Description
54422-03 45 Goals: this course is intended to provide students with deeper insights into macromolecules in view of the mechanisms of polymerization, reactionary systems and structure and properties. Description: to follow are the topics this course will address: properties and structure of polymers; polymerization mechanisms and techniques; characterization.
Professors Home time Lattes
ROSANE ANGELICA LIGABUE 28 years and 8 months Link
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Processes Applied to Natural Products
COD Workload Description
54444-03 45 Introduction; thermodynamics of phase equilibrium; mass transfer applied to processes; extraction, separation, and purification processes; modeling and simulation of processes; analytical control of processes.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Processes Applied to Natural Products
COD Workload Description
198F8-03 45 Introduction. Thermodynamics of Phase Equilibrium. Mass Transfer Applied to Processes. Extraction Processes Separation and Purification Processes. Molding and Process Simulation. Analytical Process Control.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Engineering and Materials Technology Doctorate Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Research Seminars
COD Workload Description
5461B-02 30 Connect lecturers, researchers, Master and Ph.D. students to the recent academic works produced by the Post-Graduate Programs at the School of Technology, including works that are not directly related to the area of study of the students enrolled in the course. Make use of the talks presented by the students and researchers as a formal tool for the dissemination of the scientific process, its constructive aspects, formal and conclusive, aiming at qualifying the research generated by the school.
No offer for current semester
Concentration area Type Required
Computer Science Master's Not required
Computer Science Doctorate Not required
Engineering and Materials Technology Master's Not required
Engineering and Materials Technology Doctorate Not required
Materials and Related Processes Doctorate Not required
Scientific Education Master's Not required
Scientific Education Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Learning, teaching and teacher education on Science and Mathematics This line involves knowledge production on the teaching and learning of Science and Mathematics, related to education through research, to interdisciplinarity and transdisciplinarity, to the modeling processes in Science and Mathematics, associated with the initial and continuing education of teachers in Basic and Higher Education.
Culture, Epistemology and Science Education Culture, Epistemology and Scientific Education This line addresses knowledge production on historical, epistemological and sociocultural aspects related to scientific, mathematical and technological development, as well as to the popularization of Science and Mathematics in formal and non-formal learning settings.
Tecnology in Science and Mathematics Education This line addresses knowledge production on information and communication technologies to support the teaching and learning processes in Science and Mathematics in both classroom and also in distance learning.
Semiconductor Materials
COD Workload Description
54440-03 45 Semiconductor materials and their properties, junctions and intersections; optoelectronic devices; semiconductors in engineering.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Solar Cells
COD Workload Description
54441-03 45 Principles of photovoltaic conversion; PN junction solar cells; high-efficiency solar cells; materials for solar cells; fabrication technologies; characterization of solar cells.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Special Topics in Advanced Materials
COD Workload Description
64484-03 45 This course is intended to complement Master's degree and PhD students' knowledge on the latest technologies and developments for the production of advanced materials.
Professors Home time Lattes
MARCAL JOSE RODRIGUES PIRES 26 years and 8 months Link
ELEANI MARIA DA COSTA 26 years and 8 months Link
EDUARDO CASSEL 26 years and 8 months Link
Concentration area Type Required
Materials and Related Processes Doctorate Required
Research line Description
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Special Topics in Materials Science
COD Workload Description
54436-03 45 This course aims to complement Master's degree and PhD student¿s knowledge on the latest technologies and developments for materials production.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Structure and Properties of Civil Construction Materials
COD Workload Description
94488-03 45 This course will study the microstructure, the physical and mechanical properties of the main civil construction materials: Portland cement, mortar, mineral additions, Portland cement and special concretes. It will address topics on sustainability, performance and useful life of construction materials.
Professors Home time Lattes
JAIRO JOSE DE OLIVEIRA ANDRADE 22 years and 3 months Link
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Engineering and Materials Technology Doctorate Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Transport Phenomena
COD Workload Description
04423-03 45 Thermodynamics; momentum transfer: Navier-Stokes equations, analytical solutions and turbulence; heat transfer: stationary and non-stationary conduction, phase transformations, convection and radiation; mass transfer: diffusion, Fick's Laws, mass convection.
Professors Home time Lattes
RUBEM MARIO FIGUEIRO VARGAS 30 years and 8 months Link
KARINA RUSCHEL 5 years and 9 months Link
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Waste Characterization and Reuse
COD Workload Description
94489-03 45 This course addresses the following topics: Classification of solid waste, environmental regulations and relevant legislation; Waste management; Production and characterization of different types of waste; Reuse and recycling of different materials (polymers, metals, ceramics, composites); Proper final disposal, Case studies.
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Engineering and Materials Technology Doctorate Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
COD Workload Description
198MB-02 30
Professors Home time Lattes
EDUARDO CASSEL 26 years and 8 months Link
Concentration area Type Required
Ecology and Evolution of Biodiversity Master's Not required
Ecology and Evolution of Biodiversity Doctorate Not required
Engineering and Materials Technology Master's Not required
Engineering and Materials Technology Doctorate Not required
Research line Description
Ecology and Conservation This line of research encompasses projects focusing on ecological relationships among organisms and with their environment, including studies of autecology, ecophysiology, behavior, population dynamics and community ecology, as well as projects aiming to provide scientific bases for biodiversity conservation strategies.
Systematics and Evolution The research line brings together projects related to the evolution of biodiversity, including studies in phylogenetic systematics (using morphological and molecular data, including phylogenomics), taxonomy, comparative morphology, biogeography, evolutionary genetics, and comparative genomics.
The research line encompasses projects aimed at applying ecological data, biodiversity component analyses, and/or interdisciplinary studies to solve problems with more direct socio-environmental and/or economic impact. This includes studies in the fields of ecotoxicology and environmental microbiology with a focus on the characterization, monitoring, and mitigation of environmental impacts, as well as the development of more sustainable agricultural methods using components of Brazil's native biodiversity. It also includes projects aimed at developing innovative products from biodiversity sources and/or integrating biodiversity analyses into regional economic development models with a focus on environmental sustainability.
The research line brings together projects focused on the use of large amounts of information ('big data') and the development of innovative data mining and analysis methodologies (e.g., employing machine learning) to investigate issues related to the characterization, monitoring, and conservation of biodiversity
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
COD Workload Description
198NL-02 30
No offer for current semester
Concentration area Type Required
Engineering and Materials Technology Master's Not required
Engineering and Materials Technology Doctorate Not required
Materials and Related Processes Doctorate Not required
Research line Description
Metallic materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Polymeric materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Materials and processes to mitigate and control environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Nanostructured materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and photovoltaic cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.
Metallic Materials This line of research aims to study and design metallic alloys for several applications in engineering, involving the purification of raw materials, the study of the fabrication process, thermal and thermochemical treatments and use performance.
Polymeric Materials This line of research involves the synthesis and characterization of polymers and polymer matrix composites, intended for the production of conductive and biodegradable polymers and polymers for coatings, among others.
Materials and processes for control and mitigation of environmental impacts This line of research is intended to design materials and processes used in environmental control (water, air, soil, etc.) by making use of recycling, including those materials that enable safe energy use and application of technologies for the reduction in greenhouse gas emissions.
Modeling and Simulation Applied to Materials and Processes This line of research aims to study, under the perspectives of mathematical modeling and numerical simulation, the processes and technologies involved with materials production, transport and development. Hence, physical phenomena studies, strongly supported by transport phenomena, materials science and thermodynamics, will be looked at.
Biomaterials, Biomechanics and Bioprocesses This line of research aims to develop materials to be used in implants, going over the processes of project design, fabrication and assessment of their performance. It also deals with the processes of separation, purification and fractionation of natural products for applications in engineering.
Nanostructured Materials This line of research aims to design and characterize nanostructured materials for special applications, such as: conductive polymers, superhard lattices, magnetic materials, filters, sensors, etc.
Semiconductors and Solar Cells This line of research is intended for the study and production of semi-conductive materials, as well as the fabrication and characterization of solar cells and the development of conventional and concentrator photovoltaics modules.