Anisotropic thermal-conductivity degradation in the phase-field method accounting for crack directionality
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Title
Anisotropic thermal-conductivity degradation in the phase-field method accounting for crack directionality
Authors
Keywords
Dynamic fracture, Phase-field method, Thermomechanical processes, Viscoplastic material, Anisotropic thermal-conductivity
Journal
ENGINEERING FRACTURE MECHANICS
Volume -, Issue -, Pages 107554
Publisher
Elsevier BV
Online
2021-01-22
DOI
10.1016/j.engfracmech.2021.107554
References
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- (2020) Lampros Svolos et al. JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS
- Strain localization and dynamic recrystallization in polycrystalline metals: thermodynamic theory and simulation framework
- (2019) Charles K.C. Lieou et al. INTERNATIONAL JOURNAL OF PLASTICITY
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- (2019) Rudy J.M. Geelen et al. COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING
- Three-dimensional explicit finite element formulation for shear localization with global tracking of embedded weak discontinuities
- (2019) Tao Jin et al. COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING
- Thermodynamically consistent and scale-dependent phase field approach for crack propagation allowing for surface stresses
- (2018) Valery I. Levitas et al. INTERNATIONAL JOURNAL OF PLASTICITY
- A length scale insensitive phase-field damage model for brittle fracture
- (2018) Jian-Ying Wu et al. JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS
- Dynamic recrystallization in adiabatic shear banding: Effective-temperature model and comparison to experiments in ultrafine-grained titanium
- (2018) Charles K.C. Lieou et al. INTERNATIONAL JOURNAL OF PLASTICITY
- A comparative study of shear band tracking strategies in three-dimensional finite elements with embedded weak discontinuities
- (2018) Tao Jin et al. FINITE ELEMENTS IN ANALYSIS AND DESIGN
- Study the dynamic crack path in brittle material under thermal shock loading by phase field modeling
- (2017) Dongyang Chu et al. INTERNATIONAL JOURNAL OF FRACTURE
- Modeling and simulation framework for dynamic strain localization in elasto-viscoplastic metallic materials subject to large deformations
- (2017) H.M. Mourad et al. INTERNATIONAL JOURNAL OF PLASTICITY
- A coupled phase field shear band model for ductile–brittle transition in notched plate impacts
- (2016) Colin McAuliffe et al. COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING
- A phase-field formulation for fracture in ductile materials: Finite deformation balance law derivation, plastic degradation, and stress triaxiality effects
- (2016) Michael J. Borden et al. COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING
- Phase field modeling of fracture in multi-physics problems. Part II. Coupled brittle-to-ductile failure criteria and crack propagation in thermo-elastic–plastic solids
- (2015) C. Miehe et al. COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING
- Phase field modeling of fracture in multi-physics problems. Part I. Balance of crack surface and failure criteria for brittle crack propagation in thermo-elastic solids
- (2015) Christian Miehe et al. COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING
- A unified model for metal failure capturing shear banding and fracture
- (2015) Colin McAuliffe et al. INTERNATIONAL JOURNAL OF PLASTICITY
- Viscoplastic constitutive theory for brittle to ductile damage in polycrystalline materials under dynamic loading
- (2013) Amir Shojaei et al. INTERNATIONAL JOURNAL OF PLASTICITY
- A fully coupled void damage and Mohr–Coulomb based ductile fracture model in the framework of a Reduced Texture Methodology
- (2013) Gilles Rousselier et al. INTERNATIONAL JOURNAL OF PLASTICITY
- Mesh insensitive formulation for initiation and growth of shear bands using mixed finite elements
- (2012) Colin McAuliffe et al. COMPUTATIONAL MECHANICS
- A phase-field description of dynamic brittle fracture
- (2012) Michael J. Borden et al. COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING
- Microstructural examination of quasi-static and dynamic shear in high-purity iron
- (2012) E.K. Cerreta et al. INTERNATIONAL JOURNAL OF PLASTICITY
- On the Taylor–Quinney coefficient in dynamically phase transforming materials. Application to 304 stainless steel
- (2012) R. Zaera et al. INTERNATIONAL JOURNAL OF PLASTICITY
- Effect of secondary orientation on notch-tip plasticity in superalloy single crystals
- (2011) P.A. Sabnis et al. INTERNATIONAL JOURNAL OF PLASTICITY
- A large-deformation gradient theory for elastic–plastic materials: Strain softening and regularization of shear bands
- (2011) Lallit Anand et al. INTERNATIONAL JOURNAL OF PLASTICITY
- A phase field model for rate-independent crack propagation: Robust algorithmic implementation based on operator splits
- (2010) Christian Miehe et al. COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING
- Thermodynamically consistent phase-field models of fracture: Variational principles and multi-field FE implementations
- (2010) C. Miehe et al. INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING
- Gmsh: A 3-D finite element mesh generator with built-in pre- and post-processing facilities
- (2009) Christophe Geuzaine et al. INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING
- Numerical simulation of dynamic fracture using finite elements with embedded discontinuities
- (2009) Francisco Armero et al. INTERNATIONAL JOURNAL OF FRACTURE
- Dynamic Recrystallization as a Potential Cause for Adiabatic Shear Failure
- (2008) D. Rittel et al. PHYSICAL REVIEW LETTERS
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