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Crystal-plasticity–phase-field modeling of strain-rate-induced fracture mode transition in metals

Zhenting Yang, Songlin Yao, Hao Zhang, Xiaoyang Pei

2026International Journal of Mechanical Sciences5 citationsDOI

Topics & Concepts

Materials scienceMesoscopic physicsFracture (geology)DislocationPlasticityBrittlenessNucleationCoupling (piping)Stress (linguistics)Condensed matter physicsStrain energyFracture mechanicsDeformation (meteorology)Cohesive zone modelComposite materialMechanicsShear (geology)Stress fieldStrain energy release rateDuctility (Earth science)CrystalliteSofteningStrain rateFlow stressUltimate tensile strengthFracture toughnessViscoplasticityShear stressCrystal plasticityElastic energyCrystal (programming language)Stacking-fault energyMultiscale modelingMode couplingAnnihilationNeckingStress–strain curvePeierls stressMicrostructure and mechanical propertiesHigh-Velocity Impact and Material BehaviorMetal Forming Simulation Techniques
Crystal-plasticity–phase-field modeling of strain-rate-induced fracture mode transition in metals | Litcius