DUNNE, F, PETRINIC, N. Introduction to Computational Plasticity. Oxford University Press, 2005. 256 p. ISBN: 9780198568261
HALAMA, R., SEDLÁK, J., ŠOFER, M. (2012). Phenomenological Modelling of Cyclic Plasticity, Book chapter in: Numerical Modelling, Peep Miidla (Ed.), InTech, p. 329-354. ISBN: 978-953-51-0219-9
DE SOUZA NETO, E.A., PERIČ, D., OWENS, D.R.J. Computational methods for plasticity: theory and applications. Wiley, 2008.
Theory of plasticity and viscoplasticity
| Language of instruction | angličtina, čeština |
|---|---|
| Code | 330-0925 |
| Abbreviation | TPaV |
| Course title | Theory of plasticity and viscoplasticity |
| Coordinating department | Department of Applied Mechanics |
| Course coordinator | prof. Ing. Radim Halama, Ph.D. |
Summary
The course introduces students to the basics of plasticity theory of initially isotropic materials. Phenomenological description of phenomena associated with irreversible deformations in conditions of normal, cryogenic and elevated temperatures. The subject also deals with the influence of the deformation rate on the material response and the problem of finite strains.
Literature
Advised literature
OTTOSSEN, N.S., RISTINMAA, M. The Mechanics of Constitutive Modeling, 2005, 745p.
KANG, G., KAN, Q. Cyclic Plasticity of Engineering Materials. Wiley, 2017, 538p. ISBN : 9781119180807
KANG, G., KAN, Q. Cyclic Plasticity of Engineering Materials. Wiley, 2017, 538p. ISBN : 9781119180807