Application of the Plasticity Models That Involve Three Stress Invariants

Zhang, Tingting; Gao, Xiaosheng; Webler, Bryan A.; Cockeram, B.V.; Hayden, Matthew; Graham, Stephen M.

doi:10.1142/s1758825112500214

Cited by 14 publications

(3 citation statements)

References 37 publications

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“…(5). The potential for a negligibly small change in volume with plasticity is due to the I1 dependence (where I1 is the first invariant of the stress tensor or the hydrostatic component) observed for beta-treated Zircaloy-4 [33,34]. Hence, no volume correction is made in this work, as the magnitude is small.…”

Section: Analysis Methodsmentioning

confidence: 98%

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The role of stress-state on the deformation and fracture mechanism of hydrided and non-hydrided Zircaloy-4

Cockeram

Hollenbeck

2015

Journal of Nuclear Materials

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Section: Analysis Methodsmentioning

confidence: 98%

“…Since ductile materials have been observed and theorized to not be susceptible to failure at a triaxiality value of À0.33 or less [65], the failure strain is assumed to increase to a value of 1.0 at the triaxiality value of À0. 33.…”

Section: Micromechanical Modeling Of Failure Strain and Failure Initimentioning

confidence: 99%

The role of stress-state on the deformation and fracture mechanism of hydrided and non-hydrided Zircaloy-4

Cockeram

Hollenbeck

2015

Journal of Nuclear Materials

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“…They concluded that the use of the Lagrange multiplier based strategy had an advantage in few critical situations, where the penalty method failed to produce convincing results due to excessive penetration. Zhang et al [2012] used the FE software ABAQUS adopting an updated Lagrangian formulation to solve large deformation elastoplasticity problems. They adopted a yield function, which was assumed to be a function of the first invariant of the stress tensor and the second and third invariants of the deviatoric stress tensor.…”

Section: Introductionmentioning

confidence: 99%

Adaptive Incremental Finite Element Procedure for Solving Elastoplastic Frictional Contact Problems Subjected to Normal and Tangential Loads

Abdalla

Ali-Eldin

Ghazy

2014

Int. J. Appl. Mechanics

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This paper presents a numerical model for analyzing the stresses and displacements of deformable bodies in contact with the presence of friction and material nonlinearity. Based on the finite element method (FEM), the elastoplastic frictional contact problem is formulated as an incremental convex programming model (ICPM) under inequality contact constraints and friction conditions. The classical Coulomb's friction law and the Prandtl-Reuss flow rule with the von Mises yield criterion are used to simulate the interface friction conditions and the elastoplastic behavior of the contacting bodies, respectively. The Lagrange multiplier approach is adopted for imposing the contact constraints. Furthermore, an effective adaptive incremental procedure is developed for solving the elastoplastic frictional contact problems. Examples for the frictional contact having advancing and receding nature are analyzed. The obtained results prove the ability of the developed procedure to investigate the sequence of different events during monotonic application of external loads. In addition, the results elucidate the effect of external side force on the friction behavior in the presence of plastic deformation. Good agreement has been found with published results.

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Some remarks on Lode angle and Lode parameter

Bruhns

2024

Proc Appl Math and Mech

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In the literature of plasticity, the variables Lode angle and Lode parameter are increasingly used as coordinates to describe the stress space when defining suitable yield or limit conditions ‐ often, however, without any or only alleged reference to the original work of Walter Lode. The present study will attempt to clarify this situation and provide an appraisal and classification of Lode's work.

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Application of the Plasticity Models That Involve Three Stress Invariants

Cited by 14 publications

References 37 publications

The role of stress-state on the deformation and fracture mechanism of hydrided and non-hydrided Zircaloy-4

The role of stress-state on the deformation and fracture mechanism of hydrided and non-hydrided Zircaloy-4

Adaptive Incremental Finite Element Procedure for Solving Elastoplastic Frictional Contact Problems Subjected to Normal and Tangential Loads

Some remarks on Lode angle and Lode parameter

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