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The purpose of the course is to lay out the fundamentals of plasticity of materials.
Last update: G_M (09.06.2016)
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The course is taught at the CTU and runs according to the CTU schedule. In addition to enrolling via SIS, interested students are kindly requested to contact the instructor (plesek@it.cas.cz) in person well in advance to arrange the details of the course. Last update: Šmíd Dalibor, Mgr., Ph.D. (12.06.2021)
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[1] Chen, W.F., Han, D.J.: Plasticity for Structural Engineers. Springer, New York 1988. [2] Plešek, J.: Numerická integrace konstitutivních vztahů. Inž. mech., Vol. 6, No. 1, pp.3-24, 1999. [3] Plešek, J., Korous, J.: Explicit integration method with time step control for viscoplasticity and creep. Adv. Engrg. Software, Vol. 33, No. 7-10, pp. 621-630, 2002. [4] Bathe, K.J.: Finite Element Procedures. Prentice-Hall, New Jersey 1996. Last update: Kaplický Petr, doc. Mgr., Ph.D. (09.06.2016)
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Introduction to nonlinear behaviour of materials, especially metals. Fundamental concepts such as the static limit state analysis, shakedown and low-cycle fatigue under cyclic loadings are explained. This is followed by the development of incremental models with two types of hardening, isotropic and kinematic, subject to the history dependent response to nonproportional complex loadings paths. Numerical implementation within the finite element method, stability issues and finite element locking phenomena are discussed. Last update: Kaplický Petr, doc. Mgr., Ph.D. (09.06.2016)
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The course is taught at the CTU and runs according to the CTU schedule. In addition to enrolling via SIS, interested students are kindly requested to contact the instructor (plesek@it.cas.cz) in person well in advance to arrange the details of the course. Last update: Šmíd Dalibor, Mgr., Ph.D. (12.06.2021)
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