A chemo-mechanical phase-field framework demonstrates that dissolution-driven widening of the fracture process zone blunts crack tips and promotes ductile failure when chemical degradation timescales compete with mechanical loading.
The Mathematical Theory of Equilibrium Cracks in Brittle Fracture
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Phase-field peridynamics degrades bond energies continuously via a bond phase-field parameter while using kinematic degradation to preserve nonlocal deformation gradient accuracy, with an analytically derived normalization constant for thermodynamic consistency.
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Brittle-to-ductile fracturing transition: A chemo-mechanical phase-field framework
A chemo-mechanical phase-field framework demonstrates that dissolution-driven widening of the fracture process zone blunts crack tips and promotes ductile failure when chemical degradation timescales compete with mechanical loading.
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Phase-Field Peridynamics
Phase-field peridynamics degrades bond energies continuously via a bond phase-field parameter while using kinematic degradation to preserve nonlocal deformation gradient accuracy, with an analytically derived normalization constant for thermodynamic consistency.