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.
Computer Methods in Applied Mechanics and Engineering 347, 957–982
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A shifted interface method is extended to transient poroelasticity, enabling first-order accurate modeling of embedded cracks on unfitted meshes with weak or strong interface enforcement.
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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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A shifted interface approach for internal discontinuities in poroelastic media
A shifted interface method is extended to transient poroelasticity, enabling first-order accurate modeling of embedded cracks on unfitted meshes with weak or strong interface enforcement.