Add to ORKGA new method for implementing classical multi-yield-surface theory using the kinematic hardening rule of Mroz is proposed, in which a response formula describing initial loading is introduced, and further unloading and reloading response is then found by applying a transformation to the stress state variables involved in the initial loading formula. The validity of the new formulation is supported by previous experimental results for biaxial cyclic nonproportional loading. The rules governing the response behavior under arbitrary loading paths also serve as a generalization of the Masing model for one-dimensional hysteresis and they provide instructive insight into material behavior in cyclic plasticity. such as the property of erasu...
AbstractThe basic innovation proposed in this work is to consider one of the two coefficients of the...
Abstract. A simple phenomenological approach to metal plasticity, including the description of the s...
Ratcheting is defined as the accumulation of plastic strains during cyclic plastic loading. Modeling...
A time-independent plasticity model using only one yield surface and capable of predicting cyclic lo...
Analytical modeling of one-dimensional hysteresis and general multi-axial cyclic plasticity is studi...
Bounding surface plasticity models based on one-dimensional hardening functions are broadly accepted...
It has been a long standing problem to solve the cyclic loading phenomena by a reasonably accurate c...
AbstractIn this paper we briefly address the consistency of formulations for nested surfaces plastic...
A new combined isotropic-kinematic hardening rule is proposed based on the concept of the generalize...
ABSTRACT: Tresca type yield surfaces suitable for a kinematic hardening for-mulation of incremental ...
A multi-surface approach is suggested to describe nonlinear and hysteretic unloading-reloading behav...
10 pagesInternational audienceThis paper presents a fully three-dimensional plastic constitutive mod...
hardening rule is described based on yield and memory surfaces. A memory sur-face indicates the exte...
This paper proposes a simple two-surfacce model for cyclic incremental plasticity based on combined ...
peer-reviewedThe basic innovation proposed in this work is to consider one of the two coefficients o...
AbstractThe basic innovation proposed in this work is to consider one of the two coefficients of the...
Abstract. A simple phenomenological approach to metal plasticity, including the description of the s...
Ratcheting is defined as the accumulation of plastic strains during cyclic plastic loading. Modeling...
A time-independent plasticity model using only one yield surface and capable of predicting cyclic lo...
Analytical modeling of one-dimensional hysteresis and general multi-axial cyclic plasticity is studi...
Bounding surface plasticity models based on one-dimensional hardening functions are broadly accepted...
It has been a long standing problem to solve the cyclic loading phenomena by a reasonably accurate c...
AbstractIn this paper we briefly address the consistency of formulations for nested surfaces plastic...
A new combined isotropic-kinematic hardening rule is proposed based on the concept of the generalize...
ABSTRACT: Tresca type yield surfaces suitable for a kinematic hardening for-mulation of incremental ...
A multi-surface approach is suggested to describe nonlinear and hysteretic unloading-reloading behav...
10 pagesInternational audienceThis paper presents a fully three-dimensional plastic constitutive mod...
hardening rule is described based on yield and memory surfaces. A memory sur-face indicates the exte...
This paper proposes a simple two-surfacce model for cyclic incremental plasticity based on combined ...
peer-reviewedThe basic innovation proposed in this work is to consider one of the two coefficients o...
AbstractThe basic innovation proposed in this work is to consider one of the two coefficients of the...
Abstract. A simple phenomenological approach to metal plasticity, including the description of the s...
Ratcheting is defined as the accumulation of plastic strains during cyclic plastic loading. Modeling...