Numerical implementation and validation of a consistently homogenized higher order plasticity model

Poh, Leong Hien; Phan, Van-Duc

doi:10.1002/nme.5129

Cited by 12 publications

(4 citation statements)

References 46 publications

(126 reference statements)

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“…In this paper, we adopt the homogenization theory that was first developed for gradient plasticity models in Poh et al (2013) and Poh (2013), with its excellent performance demonstrated in Poh and Phan (2016). Here, the theory is reformulated for the translation of intergranular failure mechanisms from meso to macro.…”

Section: Homogenization Strategymentioning

confidence: 97%

Homogenization of intergranular fracture towards a transient gradient damage model

Sun

Poh

2016

Journal of the Mechanics and Physics of Solids

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Section: Homogenization Strategymentioning

confidence: 97%

Homogenization of intergranular fracture towards a transient gradient damage model

Sun

Poh

2016

Journal of the Mechanics and Physics of Solids

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“…Moreover, Poh and Peerlings [59] numerically elucidated that the localization phenomenon that takes place in Bittencourt et al [65] composite unit cell benchmark problem can only be reproduced by DGP. Gurtin [15] theory has also been employed by Poh and co-workers [66,67] through a novel homogenization formulation to describe the behavior of each grain in a polycrystal where grain boundaries are modeled to describe effects of dislocation blockage or transmittal.…”

Section: Dissipative Contributionsmentioning

confidence: 99%

Strain Gradient Plasticity-Based Modeling of Damage and Fracture

Martínez‐Pañeda¹

2018

Springer Theses

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“…Moreover, Poh and Peerlings [28] showed that the localization phenomenon that takes place in Bittencourt et al [29] composite unit cell benchmark problem can only be reproduced by distortion gradient plasticity. Other recent works involve the development of new homogenization formulations [30,31] and finite element schemes [32][33][34]. However, the implications of distortion gradient plasticity on crack tip mechanics remain to be addressed.…”

Section: Introductionmentioning

confidence: 99%

Fracture in distortion gradient plasticity

Fuentes-Alonso

Martínez‐Pañeda

2020

Preprint

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Due to its superior modelling capabilities, there is an increasing interest in distortion gradient plasticity theory, where the role of the plastic spin is accounted for in the free energy and the dissipation. In this work, distortion gradient plasticity is used to gain insight into material deformation ahead of a crack tip. This also constitutes the first fracture mechanics analysis of gradient plasticity theories adopting Nye's tensor as primal kinematic variable.First, the asymptotic nature of crack tip fields is analytically investigated. A generalised J-integral is defined and employed to determine the power of the singularity. We show that an inner elastic region exists, adjacent to the crack tip, where elastic strains dominate plastic strains and Cauchy stresses follow the linear elastic r −1 2 stress singularity. This finding is verified by detailed finite element analyses using a new numerical framework, which builds upon a viscoplastic constitutive law that enables capturing both rate-dependent and rate-independent behaviour in a computationally efficient manner. Numeri-

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Numerical implementation and validation of a consistently homogenized higher order plasticity model

Cited by 12 publications

References 46 publications

Homogenization of intergranular fracture towards a transient gradient damage model

Homogenization of intergranular fracture towards a transient gradient damage model

Strain Gradient Plasticity-Based Modeling of Damage and Fracture

Fracture in distortion gradient plasticity

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