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#### Keywords

- Hysterese (3)
- Elastic BVP (2)
- Elastisches RWP (2)
- Elastoplasticity (2)
- Elastoplastisches RWP (2)
- Elastoplastizität (2)
- Ratenunabhängigkeit (2)
- Variationsungleichungen (2)
- hysteresis (2)
- variational inequalities (2)
- Convex sets (1)
- Elastoplastic BVP (1)
- Homotopie (1)
- Homotopy (1)
- Hysteresis (1)
- Jiang's constitutive model (1)
- Jiangsches konstitutives Gesetz (1)
- Konvexe Mengen (1)
- Linear kinematic hardening (1)
- Linear kinematische Verfestigung (1)
- Nonsmooth contact dynamics (1)
- Rate-independency (1)
- Stop- and Play-Operators (1)
- Stop- und Play-Operator (1)
- Stop-und Play-Operator (1)
- Variational inequalities (1)
- Variationsungleichugen (1)
- elastoplastic BVP (1)
- rate-independency (1)
- stop- and play-operators (1)

For the prediction of digging forces from a granular material simulation, the
Nonsmooth Contact Dynamics Method is examined. First, the equations of motion
for nonsmooth mechanical systems are laid out. They are a differential
variational inequality that has the same structure as classical discrete algebraic equations. Using a Galerkin projection in time, it becomes possible to derive
nonsmooth versions of the classical SHAK and RATTLE integrators.
A matrix-free Interior Point Method is used for the complementarity
problems that need to be solved in every time step. It is shown that this method
outperforms the Projected Gauss-Jacobi method by several orders of magnitude
and produces the same digging force result as the Discrete Element Method in comparable computing time.

In this article, we present an analytic solution for Jiang's constitutive model of elastoplasticity. It is considered in its stress controlled form for proportional stress loading under the assumptions that the one-to-one coupling of the yield surface radius and the memory surface radius is switched off, that the transient hardening is neglected and that the ratchetting exponents are constant.

In this article, we give some generalisations of existing Lipschitz estimates for the stop and the play operator with respect to an arbitrary convex and closed characteristic a separable Hilbert space. We are especially concerned with the dependency of their outputs with respect to different scalar products.

Error estimates for quasistatic global elastic correction and linear kinematic hardening material
(2006)

We consider in this paper the quasistatic boundary value problems of linear elasticity and nonlinear elastoplasticity with linear kinematic hardening material. We derive expressions and estimates for the difference of solutions (i.e. stress, strain and displacement) of both models. Further, we study the error between the elastoplastic solution and the solution of a postprocessing method, that corrects the solution of the linear elastic problem in order to approximate the elastoplastic model.

In this article, we give an explicit homotopy between the solutions (i.e. stress, strain, displacement) of the quasistatic linear elastic and nonlinear elastoplastic boundary value problem, where we assume a linear kinematic hardening material law. We give error estimates with respect to the homotopy parameter.