1 – REVISÃO À MECÂNICA DO CONTÍNUO

Análise Tensorial
Deformação
Tensão
Princípios Fundamentais da Mecânica
Equações Constitutivas

2 – MATERIAIS INTELIGENTES

Tipos de Materiais Inteligentes e suas Aplicações
Ligas com Memória de Forma
Materiais Piezelétricos
Materiais Magnetoestrictivos
Fluidos eletroreológicos e magnetoreológicos
Outros

3 – MODELAGEM E SIMULAÇÃO

Equações Constitutivas
Sistemas Estáticos
Sistemas Dinâmicos
Elementos Finitos

4 – TÓPICOS ESPECIAIS

BIBLIOGRAFIA

• Birman, V. (1997), “Review of Mechanics of Shape Memory Alloy Structures”, Applied Mechanics Review,v. 50, pp.629-645.
• Crandall, S.H., Dahl, N.C. & Lardner, T.J. (1978), “An Introduction to the Mechanics of Solids”, McGraw Hill.
• Duerig, T., Pelton, A. & Stöckel, D. (1999), “An Overview of Nitinol Medical Applications”, Materials Science and Engineering A, v.273-275, pp.149-160.
• Eringen, A.C. (1967), “Mechanics of Continua”, John Wiley & Sons.
• Fung, Y.C. (1965), “Foundations of Solid Mechanics”, Prentice Hall.
• Fung, Y.C. (1969), “A First Course in Continuum Mechanics”, Prentice Hall.
• Germain, P. (1962), “Mécanique des Milieux Continus”, Masson et Cie.
• Gurtin, M.E. (1981), “An Introduction to Continuum Mechanics”, Academic Press.
• James, R. D. (2000), “New Materials from Theory: Trends in the Development of Active Materials”, International Journal of Solids and Structures, v.37, pp.239-250.
• Lemaitre, J. & Chaboche, J. -L. (1990), “Mechanics of Solid Materials”, Cambridge University Press.
• Lopes Jr., V., Steffen Jr, V. & Savi, M.A. (2016), “Dynamics of Smart Systems and Structures”, Springer.
• Machado, L. G. & Savi, M. A. (2003), “Medical Applications of Shape Memory Alloys”, Brazilian Journal of Medical and Biological Research, v.36, n.6, pp.683-691.
• Malvern, L.E. (1969), “Introduction to the Mechanics of a Continous Medium”, Prentice Hall.
• Rogers, C. A. (1995), “Intelligent Materials”, Scientific American, September, pp.122-127.
  Rogers, C. A., Liang, C. & Fuller, C. R. (1991), “Modeling of Shape Memory Alloy Hybrid Composites for Structural Acoustic Control”, Journal of Acoustical Society of America, v.89, n.1, pp.210-220.
• Savi, M. A., Paiva, A., Baêta-Neves, A. P. & Pacheco, P. M. C. L. (2002), “Phenomenological Modeling and Numerical Simulation of Shape Memory Alloys: A Thermo-Plastic-Phase Transformation Coupled Model”, Journal of Intelligent Materials Systems and Structures, , v.13, n.5, pp.261-273.
• Valanis, K.C. (1972), “Irreversible Thermodynamics of Continuous Media, Internal Variable Theory”, Springer Verlag.
• Van Humbeeck, J., (1999), “Non-medical Applications of Shape Memory Alloys”, Materials Science and Engineering A, v.273-275, pp.134-148.
  Ziegler, H. (1977), “Applied Mathematics and Mechanics”, North-Holland.

LISTAS DE EXERCÍCIOS

Lista 1

LINKS

SMARTLAB – TEXAS A&M UNIVERSITY
TECHNISCHE UNIVERSITÄT BERLIN – INSTITUT FUR THERMODYNAMIK
SHAPE MEMORY APPLICATIONS

ARTIGOS

Intelligent Materials: An Overview – Iwer & Haddad (1994)
Medical Applications of Shape Memory Alloys – Machado & Savi (2003)
Modelos Constitutivos para Ligas com Memória de Forma – Paiva, Savi & Pacheco (2003)
Phenomenological Modeling and Numerical Simulation of Shape Memory Alloys: A Thermo-Plastic-Phase Transformation Coupled Model – Savi, Paiva, Baêta-Neves & Pacheco (2002)
A Constitutive Model fos Shape Memory Alloys Considering Tensile-Compressive Asymmetry and Plasticity – Paiva, Savi, Braga & Pacheco (2005)
Free Energy Model for Hysteresis in Magnetostrictive Transducers – Smith, Dapino & Seelecke (2003)