Some Novel Developments in Finite Element Procedures for Gradient‐dependent Plasticity

Borst, René de; Pamin, Jerzy

doi:10.1002/(sici)1097-0207(19960730)39:14<2477::aid-nme962>3.3.co;2-5

Cited by 134 publications

(128 citation statements)

References 3 publications

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“…One of the unresolved issue with this approach is related to the integration of damage near the boundary of a structure. Another nonlocal regularization approach is based on incorporation of higher order deformation gradients (Vardoulakis and Aifantis, 1991;de Borst and Pamin, 1996;Ramaswamy and Arava 1998a, b;Zervos et al, 1999). The extra boundary conditions for the higher order gradient theories have not yet fully understood and in addition, higher order elements are generally required for the numerical implementation.…”

Section: Regularization Of Strain-softening Modelsmentioning

confidence: 99%

“…Exploiting the progress in numerical techniques and the evolution in computer power the last decade many dedicated studies appeared on bifurcation for more complicated boundary-value problems and, more importantly, for post-bifurcation analyzes implementing higher order continuum theories (de Borst and Sluys 1991;Papanastasiou and Vardoulakis, 1992;Tejchman and Wu, 1993;de Borst and Pamin, 1996;Aravas, 1997a, 1997b;Ehlers and Volk 1998). The majority of these studies had a main objective to demonstrate the superiority of the new theories over the limitations of the classical elastoplasticity.…”

Section: Introductionmentioning

confidence: 99%

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Localization of deformation and failure around elliptical perforations based on a polar continuum

Papanastasiou¹

2000

Computational Mechanics

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Stability analysis of elliptical shape perforations embedded in a compressive stress ®eld is presented. The study is based on ®nite element analysis with an advanced material model capable of predicting surface buckling and localization of deformation in shear bands causing failure in a structure. The model is an extended¯ow theory of plasticity for a Mohr±Coulomb solid with Cosserat microstructure. The application is related to the stability of perforation tunnels that are used for the¯ow of hydrocarbon in the wellbores. It is demonstrated that it is essential to carry out advanced localization analysis in order to reach correct results upon which a new perforation shape design can be based. Classical stress analysis predicts that an elliptical hole suffers less stress concentration than a circular hole when its major axis is aligned with the direction of the major principal stress and its axis ratio is the same as the applied stress ratio. However, failure analysis based on localization of deformation show that an elliptical hole will be stronger if its axis ratio is greater than the ratio of the applied stresses. Other practical applications can be found in the design of underground cavities in geotechnical, mining and petroleum engineering.

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Section: Regularization Of Strain-softening Modelsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Localization of deformation and failure around elliptical perforations based on a polar continuum

Papanastasiou¹

2000

Computational Mechanics

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“…However, here only tension without kinematic hardening will be considered and oscillatory stress behaviors are not a problem. The finite element procedure adopted here follows the method used by de Borst and Pamin [48] for timeindependent plasticity and Borg et al [42] for viscoplasticity, where both the conventional displacement increments, D, as well as the increments of the effective plastic strain rates, ε p , appear as unknowns. However, they solved for D and ε p simultaneously, even though the system of equations decouples.…”

Section: Methodsmentioning

confidence: 99%

Necking of anisotropic micro-films with strain-gradient effects

Legarth

2008

Acta Mech Sin

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Necking of stubby micro-films of aluminum is investigated numerically by considering tension of a specimen with an initial imperfection used to onset localisation. Plastic anisotropy is represented by two different yield criteria and strain-gradient effects are accounted for using the visco-plastic finite strain model. Furthermore, the model is extended to isotropic anisotropic hardening (evolving anisotropy). For isotropic hardening plastic anisotropy affects the predicted overall nominal stress level, while the peak stress remains at an overall logarithmic strain corresponding to the hardening exponent. This holds true for both local and nonlocal materials. Anisotropic hardening delays the point of maximum overall nominal stress.

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“…Special focus is also given in the numerical solution of strain gradient equations via finite and boundary element methods. Tsamasphyros [21,22], Markolefas [15], Amanatidou [1], Borst [3,4] are some of the many researchers working towards this direction.…”

Section: Introductionmentioning

confidence: 99%

A mixed finite volume formulation for the solution of gradient elasticity problems

Tsamasphyros

Vrettos

2009

Arch Appl Mech

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The present works aims at solving the equations of dipolar gradient elasticity via the finite volume method. Initially, a general, mixed, finite volume formulation is stated. As a first approach, the equations of 1D and 2D gradient elasticity are solved via the proposed method. Numerical implementation shows that the suggested model is in excellent agreement with analytic solutions. The approach seems to be promising for extension to 3D problems also.

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Some Novel Developments in Finite Element Procedures for Gradient‐dependent Plasticity

Cited by 134 publications

References 3 publications

Localization of deformation and failure around elliptical perforations based on a polar continuum

Localization of deformation and failure around elliptical perforations based on a polar continuum

Necking of anisotropic micro-films with strain-gradient effects

A mixed finite volume formulation for the solution of gradient elasticity problems

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