Courses

SYLLABUS: Basic concepts of measurement methods. Introduction to probability and statistics. Uncertainty analysis (Theory of errors). Types, sources, and determination of measurement errors. Measurement outcomes. Static and dynamic characteristics of signals. Behavior of measurement systems. Qualification of measurement systems. Continuous signals and transducers. Signal conditioning. A/D and D/A conversion. Quantization and Aliasing. Deterministic and random signals. Nyquist's Theorem. Interpolation and decimation. Introduction to filters. Hardware and software for acquisition and processing. 

BIBLIOGRAPHY:
DOEBELIN, E. O. Measurement Systems - Application and Design, McGraw-Hill, 5th edition, 2003.
DOEBELIN, E. O. Engineering Experimentation: Planning, Execution, Reporting. McGraw-Hill series in mechanical engineering. Mechanical Engineering Series. 528 pages, 1995.
FIGLIOLA, R. S. BEASLEY D. E., Theory and design for mechanical measurements, John Wiley & Sons, 1994.
DALLY, J. W., RILEY, W. F.; MCCONNEL, K. G., Instrumentation for Engineering Measurements, John Wiley & Sons, 1992.
HOLMAN, J. P. Experimental Methods for Engineers, McGraw-Hill Education, 7th edition, 698 pages, 2001.
BETHEA, R. M. Statistical Methods for Engineers and Scientists, Third Edition. CRC Press, 672 pages, 1995.
INMETRO, Guide for the Expression of Measurement Uncertainty, 1998.
OPPENHEIM, A.V.; WILLSKY, A.S.; HAMID, S. Signals and systems. 2nd ed. Prentice Hall, 1996, 957 p.
LATHI, B. P. Linear Signals and Systems. 2nd ed. Bookman, 2006, 856 p.
OPPENHEIM, A.V.; SCHAFER, R.W. Discrete-time signal processing. 3rd ed. Prentice Hall, 2009, 1120p.

SYLLABUS: Vector Spaces. Linear Transformations. Eigenvalue problem. Linear differential operators. Fourier series, Fourier and Laplace transforms. Ordinary differential equations. Systems of O.D.E. Applications of O.D.E in Engineering. Partial differential equations, heat equation, poles and residues, mapping through elementary functions, mapping applications.

BIBLIOGRAPHY:
RILEY, K. F., HOBSON, M. P., E BENCE, S. J. Mathematical Methods for Physics and Engineering: a comprehensive guide. Cambridge University Press, 3rd edition, 2006.
KWOK, Y. K. Applied Complex Variables for Scientists and Engineers, Cambridge University Press, January 2002.
REDDY, J. N. Energy Principles and Variational Methods in Applied Mechanics, Wiley, 2nd edition, July 2002.
CAP, F. F. Mathematical Methods in Physics and Engineering with Mathematic. CRC Press, 352 pages, 2003.
TEMAM, R.; MIRANVILLE, A. Mathematical Modeling in Continuum Mechanics, Cambridge University Press, November 2000.

SYLLABUS: Discrete and continuous systems. Variational and differential formulations. Matrix algebra, solution of linear equation systems, calculation of eigenvalues and eigenvectors. Introduction to numerical methods: finite differences, weighted residuals, Rayleigh-Ritz, finite elements, boundary elements, and finite volumes. Elements and interpolation functions. Isoparametric elements, mapping. Numerical integration. Numerical applications.

BIBLIOGRAPHY:
BATHE, K. J. Finite Element Procedures (Part 1-2), Massachusetts: K. J. Bathe, 2006.
BREBBIA, C. A.; TELLES, J. C. F.; WROBEL, L. C. Boundary Element Techniques, Theory and Applications in Engineering, Springer-Verlag, New York, 1989.
CHAPRA, S. C.; CANALE, R. P. Numerical Methods for Engineers: with Software and Programming Applications, McGraw-Hill Science/Engineering/Math, 4th edition, July 2001.
COOK, R. D., MALKUS, D. S.; PLESHA, M. E. Concepts and Applications of Finite Element Analysis, Wiley India Pvt. Limited, 2007.
SHAMES, I. H.; DYM, C. L. Energy and Finite Element Method in Structural Mechanics, New Age International, New York, 1995.
PRESS, W. H.; TEUKOLSKY, S. A.; VETTERLING, W. T.; FLANNEY, B. P. Numerical Recipes in Fortran 90, Cambridge University Press, Volume 2, 1999.
PRESS, W. H., TEUKOLSKY, S. A.; VETTERLING, W. T.; FLANNERY, B. P. Numerical Recipes Multi-Language Code CD-ROM with Windows, DOS, or Mac Single Screen License. Cambridge University Press, 2nd edition, January 2002.

SYLLABUS: Didactic activities in undergraduate courses, under the supervision of an advisor.

SYLLABUS: Derivation of flow equations. Properties of Navier/Stokes equations. Exact solutions of Navier/Stokes equations. Viscous flows in pipes. Turbulence modeling. Modern analytical techniques in approximate solutions. Dimensional analysis. Boundary layer flows. Inviscid flow.

BIBLIOGRAPHY:
ELGER, D. E.; WILLIAMS, B. C.; CROWE, C. T.; ROBERSON, J. A. Engineering Fluid Mechanics. Wiley, 2013.
WHITE, F. M., Fluid Mechanics, McGraw-Hill Companies; 7th edition, 2011.
MOTT, R. L., UNTENER, J. A., Applied Fluid Mechanics, Prentice Hall, 7th revised edition. Prentice Hall, 2014.
BIRD, R. B.; STEWART, W. E.; LIGHTFOOT, E. N.; Transport Phenomena, John Wiley & Sons, 2nd ed., 2007.
CHORIN, A. J. AND MARSDEN, J. E., “A Mathematical Introduction to Fluid Mechanics”, Springer-Verlag, 1990.

SYLLABUS: Fundamental concepts; the system and its properties, heat and work, equilibrium notions. Energy and entropy: first and second law of Thermodynamics. Thermodynamic cycles, irreversibility, and availability. Equations of state and thermodynamic relations. Ideal and real gases. Analysis of thermodynamic systems. Applications in metallurgy and mining.

BIBLIOGRAPHY:
BEJAN, A. Advanced Engineering Thermodynamics, John Wiley & Sons Ltd, 2006.
POST, S. L. Advanced Thermodynamics, Mercury Learning & Information, 2014.
KROOS, K.; POTTER, M. C. Thermodynamics for Engineers, Cengage Learning, Inc., 2014.
WARK Jr, K. Thermodynamics. New York, McGraw-Hill, 5th. Ed. 1988, 954p.
MODELL, R. REID, R. C. Thermodynamics and its Applications, Prentice-Hall Inc., Englewood Cliffs, 1983.
LEANDRO, C. A. S. Applied Thermodynamics for Metallurgy - Theory and Practice, Saraiva, 2013.

SYLLABUS: Introduction, Internal Combustion Engines: introduction, external and internal combustion, alternative engines, rotary engines, concept engines, fuels and combustion, engine performance analysis. Gas Turbines and Thermal Power Plants: applications, operating cycles, main components, fuels and combustion, operational efficiencies. Cogeneration.

BIBLIOGRAPHY:
BRUNETTI, F. Internal combustion engines. Vols. 1 and 2. Blucher Publisher. 554 pages, 2012.
LORA, E. S.; NASCIMENTO, M. A. R. (orgs) Thermal Generation: Planning, Design, and Operation. Vols. 1 and 2. Interciência Publisher. 1296 pages, 2004.
RATHORE, M. M. Thermal Engineering. Tata McGraw-Hill Education, 1134 pages, 2010.
BEJAN, A., Advanced Engineering Thermodynamics. New York: Wiley, 920 pages. 2006.
NAG, P. K. Engineering thermodynamics. Tata McGraw-Hill Education, 914 pages, 2013.
SANTOS, N. O. Applied Thermodynamics to Thermal Power Plants. Interciência Publisher.
BOYCE, M. P. Handbook for Cogeneration and Combined Cycle Power Plants. ASME Press, 557 pages, 2002.
BALESTIERI, J. A.P. Cogeneration. Florianópolis, UFSC Publisher. 279 p., 2002.

SYLLABUS: Introduction, Steam Generators: conceptualization and classification, operating principle, solid, liquid, and gaseous fuel boilers, steam production capacity, thermal balance, water treatment for boilers, NR13 standard. Steam Turbines and Thermal Power Plants: applications, operating cycles, main components, operational efficiencies.

BIBLIOGRAPHY:
LORA, E. S.; NASCIMENTO, M. A. R. (orgs) Thermal Generation: Planning, Design, and Operation. Vols. 1 and 2. Interciência Publisher. 1296 pages, 2004.
PERA, H. Water Vapor Generators. Polytechnic School of the University of São Paulo - EPUSP.
KERN, D. Q. Heat Transfer Processes. Guanabara Publisher, 684 pages, 1980.
RATHORE, M. M. Thermal Engineering. Tata McGraw-Hill Education, 1134 pages, 2010.
BEJAN, A., Advanced Engineering Thermodynamics. New York: Wiley, 920 pages. 2006.
NAG, P. K. Engineering Thermodynamics. Tata McGraw-Hill Education, 914 pages, 2013.

SYLLABUS: Review of mass and energy balance in combustion systems, Chemical equilibrium. Chemical kinetics, Premixed Flames, Gas Jet Diffusion Flames, Liquid Combustion, Solid Combustion, Combustion and the environment. Applications in industrial furnaces.

BIBLIOGRAPHY:
CARVALHO J. A.; MCQUAY, M. Q., Applied Combustion Principles, Editora da Universidade Federal de Santa Catarina, 176 pages, 2007.
CARVALHO, J. A.; LACAVA, P. T. Emissions in Combustion Processes, Editora da UNESP, 136 pages, 2003.
TURNS, S. R. An Introduction to Combustion – Concepts and Applications, McGraw-Hill Education, 2012.
GLASSMAN, I.; YETTER, R. Combustion. Academic Press, 800 pages, 2008.
KUO, K. K., Principles of Combustion, John Wiley & Sons, 2005.
WARNATZ, J.; MAAS, U.; DIBBLE, R. W. Combustion: Physical and Chemical Fundamentals, Modeling and Simulation, Experiments, Pollutant Formation. Springer, 378 pages, 2006.
LEFEBVRE, A. H. Gas Turbine Combustion, Second Edition. CRC Press, 416 pages, 1998.

SYLLABUS: Heat transfer fundamentals. Models and formulations. Heat conduction equations in isotropic and anisotropic media. Solution methods for one, two, and three-dimensional problems. Heat conduction with internal heat generation. Numerical methods and variational formulation applied to thermal conduction.

BIBLIOGRAPHY:
KREITH, F.; MANGLIK, R. M.; BOHN, M. S. Principles of Heat Transfer. Cengage Learning Publishers, 250 pages, 2012.
JIJI, L. M. Heat Conduction. Berlin: Springer, 434 pages, 2009.
HAHN, D. W.; OZISIK, M. N. Heat Conduction. New York: John Wiley & Sons, 744 pages, 2012.
ÇENGEL, Y. A.; GHAJAR, A. J. Heat and Mass Transfer. McGraw Hill Brasil, 906 pages, 2011.
MYERS, G. E. Analytical Methods in Conduction Heat Transfer. 2nd edition. AMCHT Publications, 409 pages, 1998.
BEJAN, A.; KRAUS, A. D. Heat Transfer Handbook, Volume 1, John Wiley & Sons, 1479 pages, 2003.
RATHORE, M. M.; KAPUNO, R. R. Engineering Heat Transfer Jones & Bartlett Learning, 1178 pages, 2011
OZISIK, M. N. Boundary Value Problems of Heat Conduction Courier Dover Publications, 512 pages, 2013.

SYLLABUS: Introduction. Differential equation of mass, momentum, and energy conservation. Boundary layer. Convection inside ducts. Convection over surfaces. Natural convection. Combined natural and forced convection. Transition to turbulence. Turbulent convection in internal flow.

BIBLIOGRAPHY:
BEJAN, A. Convection Heat Transfer, John Wiley & Sons, 2013.
ARPACI, V. S.; LARSEN, P. S. Convection Heat Transfer, Prentice Hall, 1984.
KAKAÇ, S., YENER, Y., PRAMUANJAROENKIJ, A., Convective Heat and Mass Transfer, Third Edition, CRC PRESS, Taylor & Francis Group, 2014.
BURMEISTER, L. C. Convective Heat Transfer, 2nd Edition, John Wiley & Sons, 1993.
KAYS, W. M.; CRAWFORD, M. E.; WEIGAND B. Convective Heat and Mass Transfer, 4th Ed, Mc-Graw-Hill, New York, 2004.

SYLLABUS: Basic aspects of radiation. Radiation from a black body. Properties of non-black surfaces. Properties of real materials. Introduction to radiant heat exchange. Radiation heat exchange between black surfaces. Radiation heat exchange between gray-diffuse surfaces. Heat exchange in cavities with specular reflecting surfaces. Heat exchange between non-diffuse and non-gray surfaces. Monte Carlo method for radiation problems. Fundamentals of radiation in media that absorb, emit, and scatter. Applications in industrial furnaces.

BIBLIOGRAPHY:
SIEGEL, R.; HOWELL, J. R. Thermal Radiation Heat Transfer, CRC Press, 5th edition 2012.
MODEST, N. F. Radiative Heat Transfer, 3rd edition. Academic Press, 2013.
HOWELL, J. R., SIEGEL, R. MENGUC, M. P. Thermal Radiation Heat Transfer, 5th Edition, CRC Press, 2010.
HOLMAN, J. P., Heat Transfer, 10Th Edition, McGraw-Hill Science/Engineering/Math, 2009.
GALARÇA, M. M., Thermal Radiation in Participating Media, NEA-A Editora, 2013.

SYLLABUS: Description of the inverse problem of heat conduction. Estimation of thermophysical parameters. Exact solution of inverse problems in heat conduction. Approximate methods for direct problems. Estimation procedures in inverse heat conduction problems: sequential methods with specified function and conjugate gradient method. Procedures for obtaining multiple heat flows. Estimation of heat transfer coefficient. Other inverse techniques. Applications: a) Identification of thermophysical properties of new materials, polymers, cutting tools, among others; b) Identification of heat flow in inaccessible regions such as those that occur in machining processes, welding, phase change, among others.

BIBLIOGRAPHY:
BECK, J. V., BLACKWELL, B. & ST. CLAIR, H. R. JR., Inverse Heat Conduction - Ill - posed Problems, A Wiley - Interscience Publication, N.Y., 1985.
OZISIK M. N., Heat Conduction, 3rd Ed., John Wiley, 1993.

SYLLABUS: Generalized form of governing equations. Discretization by the finite volume technique. Treatment of boundary conditions, source terms, and nonlinearity. Explicit and implicit formulation. Techniques for solving linear equation systems. Problems involving convection and diffusion. Methods for evaluating flows at interfaces. The problem of false diffusion. Calculation of the flow field. Simultaneous and segregated solution of governing equations. Methods for treating pressure-velocity coupling. Mathematical modeling, use, and development of computational codes in solving problems of heat transfer and fluid flow. Applications in mining and metallurgy processes.

BIBLIOGRAPHY:
PATANKAR, S. V. Numerical Heat Transfer and Fluid Flow, Hemisphere Publishing Corporation, 1980.
MINKOWYCZ, W. J. Handbook of Numerical Heat Transfer, John Wiley and Sons Ltd., 2006.
SMITH, G. D. Numerical Solutions of Partial Differential Equations: Finite Difference Methods. Claredon Press, Oxford, 1985.
CHUNG, T. J. Computational Fluid Dynamics, Cambridge University Press, 2002.
VERSTEEG, H. K.; MALALASEKERA, W. An introduction to computational fluid dynamics, the finite volume method. 2nd. ed. Harlow, England: Pearson, 2007.
FERZIGER, J. H.; PERIC, M. Computational methods for fluid dynamics. 3rd. ed. Berlin: Springer, 2002.
HIRSCH, C. Numerical computation of internal and external flows. 2nd ed. Burlington, MA, USA: Butterworth-Heinemann, 2007.
MALISKA, C. R. Computational Heat Transfer and Fluid Mechanics. 2nd ed. Rio de Janeiro: LTC, 2004.

SYLLABUS: Current topics with variable content, addressing subjects that complement the disciplines of the Transport and Energy Phenomena line. The program and bibliography are specific to each topic.
 

SYLLABUS: Chemical bonds: primary bonds (metallic, covalent, and ionic) and secondary bonds (weak and Van der Waals bonds). Crystal defects: point, linear, planar, and volumetric. Dislocation theory. Solid-state diffusion: diffusion mechanisms and Fick’s laws. Phase diagrams under equilibrium conditions. The Fe-Fe3C diagram. Out-of-equilibrium transformations for ferrous and non-ferrous alloys. Traditional heat treatments of steels and non-ferrous metals. Surface treatments and thermochemical treatments.

BIBLIOGRAPHY:
Materials Science and Engineering. Ed: CENGAGE LEARNING, 2008. PHULÉ, P. P. and ASKELAND, D. R.
Materials Science and Engineering - An Introduction. Ed. LTC, Rio de Janeiro, 7th edition, 2008. CALLISTER, W. D.
SMITH, W. F. and HASHEMI, J. Foundations of Materials Science and Engineering, Ed. MCGRAW-HILL, 4th Edition, 2005.
HOSFORD, W. F. and Ed: CRC PRESS. Physical Metallurgy, 2009.
Physical Metallurgy Principles. Ed. CENGAGE LEARNING, 4th Edition, 2010. ABBASCHIAN, R, ABBASCHIAN, L. and REED-HILL, R. E.
Mechanical Metallurgy. Ed. MCGRAW-HILL. 3rd Edition, 1986. DIETER, G. E.
Metallography of Common Steel Products. Ed. Blücher, 4th Edition - 2008. COLPAERT, H.
Mechanical Behavior of Materials – Cambridge – 2nd Edition - 2009. MEYERS – CHAWLA.
Strain Hardening, Recrystallization, Grain Growth, and Texture. Ed. ABM, 3rd Edition, 2005. PADILHA, A. F. and SICILIANO Jr., F.
Engineering Materials - Microstructure and Properties. Ed. HEMUS, 2nd Edition, 2007. PADILHA, A. F.

SYLLABUS: Analysis of dynamic systems response in the time domain; Analysis of systems in the frequency domain; Feedback systems: sensors, actuators, and controllers; Stability, Regulation, Disturbance Rejection, and Tracking; Control system design for machine tools; Generation of trajectories for machine tools; Interpolation techniques; Numerical command system design; Practical implementation of control systems for machine tools.

BIBLIOGRAPHY:
ALTINTAS, Y. Manufacturing Automation: Principles of Metal Cutting, Machine Tool Vibrations and CNC Design, 2nd ed., Cambridge University Press, 2012.
SPONG, M. W., VIDYASAGAR, M. Robot Dynamics and Control. 1st ed., Willey, 1989.
J Wilkie.; M. Johnson e R. Katebi Control engineering - an introductory course.
K. Ogata . Modern control engineering.
F.G. Shinskey. Process control systems -application, design and tuning.
J.M. Maciejowski. Multivariable feedback design.
G.F. Franklin, J. D. Powell, A.Emami-Naeini. Feedback control of dynamic systems.

SYLLABUS: Review of the mechanical behavior of cutting forces in metals. Dynamics of machine structures. Frequency response of structures. Analytical and experimental modal analysis. Forced and self-excited vibrations in machines and chatter. Stability diagrams. Sensors for monitoring and control of machine tools.

BIBLIOGRAPHY:
ALTINTAS, Y. Manufacturing Automation: Principles of Metal Cutting, Machine Tool Vibrations and CNC Design, 2nd ed., Cambridge University Press, 2012.
INMAN, D. J. Engineering Vibration. 3rd ed. Prentice-Hall, 2007.
EWINS, D. J. Modal testing: theory, practice and application. 2nd ed. Hertfordshire: Research Studies Press, 2000. 562 p.
MEIROVICH, L. Fundamentals of Vibration. 1st ed. Waveland Pr Inc., 2010.
CRAIG JR., R R.; KURDILA, A. J. Fundamentals of structural dynamics. 2nd ed. Hoboken, NJ: John Wiley & Sons, 2006. 728p.

SYLLABUS: Physical quantities in the cutting process. Cutting tool geometry. Chip formation. Machining forces and power. Temperature during machining. Cutting fluids. Cutting tool materials. Failures, wear, and wear mechanisms of cutting tools. Surface integrity.

BIBLIOGRAPHY:
Machado, A.R.; da Silva, M.B. Metals Machining, EDUFU, 1999, 224 pages.
TRENT, E.M. Metal Cutting, 3rd Edition, Butterworths, London, 1991, 245 pages.
SHAW, M. C. Metal Cutting Principles, Oxford University Press, New York, 1986, 594 pages.

SYLLABUS: Introduction; Classification of machining processes; Turning / Boring; Milling; Drilling; Reaming; Threading; Planing; Broaching; Grinding, Other Processes.

BIBLIOGRAPHY:
ASM. Metals Handbook, 9th Edition, volume 16 - Machining, 1989;
“Machining Data Handbook”, 3rd Edition, volumes I and II, Machinability Data Center, Institute of Advanced Manufacturing Sciences, Inc., 1980;
Diniz, A. E.; Marcondes, F.C. and Coppini, N.L. Machining Technology of Materials, MM Editora, 1999;
Groover, M.P., Fundamentals of Modern Manufacturing – Materials, Processes and Systems. Published by Prentice Hall, International Edition, 1996.

SYLLABUS: Machinability tests. Machining of magnesium and its alloys. Machining of aluminum and its alloys. Machining of copper and its alloys. Machining of steel and its alloys. Machining of stainless steels. Machining of cast irons. Machining of titanium and its alloys. Machining of nickel and its alloys. Machining of ceramic materials and composite materials.

BIBLIOGRAPHY:
Machado, A.R.; da Silva, M.B. Metals Machining, EDUFU, 1999, 224 pages.
TRENT, E.M. Metal Cutting, 3rd Edition, Butterworths, London, 1991, 245 pages.
MILLS, B.; REDFORD, A.H. Machinability of Engineering Materials. Applied Science, 1983, London, UK.
GORCZYCA, F.E. Application of Metal Cutting Theory. Industrial Press, New York, 1987.

SYLLABUS: Current topics with variable content, addressing subjects that complement the disciplines of the Manufacturing Processes Reseach line. The program and bibliography are specific to each topic.
 

SYLLABUS: Introduction. Reaction theory. Solid-state diffusion. Diffusional transformations in solids. Adiffusional transformations in solids. Kinetics of phase transformations.

BIBLIOGRAPHY:
The Theory of Transformations in Metals and Alloys. An Advanced. Textbook in Physical Metallurgy. J. W. Christian. 2nd edition. 1981.
Heat Treatment and Processing Principles. George Krauss. 1990
Phase Transformations in Metals and Alloys. David. A Porter, Kenneth E. Easterling and Mohamed Y Sherif. 3rd edition. 2009.
Bainite in Steels. H. K. D. H. Bhadeshia. 3rd edition. 2015.
Thermodynamics in Materials Science. Robert Dehoff. 2nd edition. 2006.

SYLLABUS: Failure analysis; Fracture toughness; Linear elastic fracture mechanics; Elastoplastic fracture mechanics; Microstructural aspects; Introduction to fatigue; Fatigue under stress control; Fatigue under strain control; Application of fracture mechanics to fatigue.

BIBLIOGRAPHY:
Saxena, A.: Advanced Fracture Mechanics and Structural Integrity, CRC Press, 2019.
Anderson, T.L.: Fracture Mechanics, CRC Press, 2017.
Hertzberg, R.W.: Deformation and Fracture Mechanics of Engineering Materials, John Wiley & Sons, 2013.
Milella, P.P.: Fatigue and Corrosion in Metals, Springer, 2013.
McEvily, A.J.: Metal Failures, John Wiley & Sons, 2013.
Wulpi, D.J.: Understanding How Components Fail, ASM International, 2013.
Schijve, J.: Fatigue of Structures and Materials, Springer, 2009.
Broek, D.: Elementary Engineering Fracture Mechanics, Martinus Nijhoff Publ., 2008.
Janssen, M., Zuidema, J. and Wanhill, R.: Fracture Mechanics, Spon Press, 2005.
Lee, Y.L., Pan, P., Hathaway, R.B. and Barkey, M.E.: Fatigue Testing and Analysis, Elsevier, 2005.
Suresh, S.: Fatigue of Materials, Cambridge Univ. Press, 2004.
Stephens, R.I., Fatemi, A., Stephens, R.R. and Fuchs, H.: Metal Fatigue in Engineering, Wiley & Sons, 2001.
Barsom, J.M. and Rolfe, S.T.: Fracture and Fatigue Control in Structures, Prentice Hall, 1999.

SYLLABUS: Introduction; X-ray diffraction; Microscopy techniques: Optical and Electronic; Fundamentals of Automated Image Analysis; Quantitative Metallography; Other Techniques.

BIBLIOGRAPHY:
Strain Hardening, Recrystallization, Grain Growth, and Texture. Ed. ABM, 3rd Edition, 2005. PADILHA, A. F. and SICILIANO Jr., F.
Engineering Materials - Microstructure and Properties. Ed. HEMUS, 2nd Edition, 2007. PADILHA, A. F.
Microstructural Analysis Techniques. Ed. HEMUS, 2004. PADILHA, A. F. and AMBRÓZIO FILHO, F.
Introduction to Solid State Physics. Guanabara Dois Edition - 1978. KITTEL, C.
Elements of X-Ray Diffraction. Addison-Wesley Publishing Company - 1978. CULLITY, D. B.
Materials Microscopy - An Introduction. Ed E-Papers Serviços Editoriais, Rio de Janeiro, 2002. MANNHEIMER, W. A.
SMALLMAN, R.E. and ASHBEE, K.H.G., “Modern Metallography”, Pergamon Press, 1966, 211 p.
GONZALEZ, R.C. and WINTZ, P., “Digital Imaging Processing”, Addison Wesley Pub. Co. 1987;
COLPAERT, H. Metallography of Common Steel Products. Ed. Blücher, 4th Edition - 2008.

SYLLABUS: Introduction. Materials for engineering. Behavior of materials under tension, compression, impact, bending, hardness, torsion, fatigue, and creep. Metallic, ceramic, polymeric, and composite materials: manufacturing processes, structures, and characterization techniques. Other materials.

BIBLIOGRAPHY:
CALLISTER, W.D. ‘Materials Science and Engineering: an Introduction’. Fourth Edition. United States of America: Jonh Wiley & Sons, Inc., 1996. 852 p.
ASKELAND, D.R. ‘The Science and Engineering of Materials’. Third Edition. Boston: PWS Publishing Company, 1994. 812 p.
SHACKELFORD, J. F. ‘Introduction to Materials Science for Engineers’. Fourth Edition. United Kingdom: Prentice Hall International, Inc., 1992. 670p.
ASBY, M.F., JONES, D.R.H. ‘Engineering Materials 1: An Introduction to Their Properties & Applications’. Second Edition, Great Britain: Butterworth Heinemann, 1996.
ASBY, M.F., JONES, D.R.H. ‘Engineering Materials 2: An Introduction to Microstructures, Processing & Design’. Second Edition. Great Britain: Butterworth Heinemann, 1996. 367 p.
DIETER, G.E. ‘Mechanical Metallurgy’. 2nd Edition. Rio de Janeiro: Guanabara Dois, 1981, 653p.
KINGERY, W.D.; BOWEN, H.K.; UHLMANN, D.R. (1976). Introduction to Ceramics. 2nd Edition, JohnWiley & Sons, Inc., New York. London. Sydney: 1032p.

SYLLABUS: Current topics with variable content, addressing subjects that complement the disciplines of the Materials Characterization line. The program and bibliography are specific to each topic.