A PVW-based framework predicts viscoelastic crack delay times and crack evolution under arbitrary loads while introducing a path-independent J-integral that yields a generalized Griffith criterion for delayed fracture.
The phenomena of rupture and flow in solids , volume=
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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.
Solvent molecular size controls shear thickening and jamming in cornstarch suspensions by modulating hydrogen-bridging friction between particles.
citing papers explorer
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Theory of fracture initiation and propagation in viscoelastic media
A PVW-based framework predicts viscoelastic crack delay times and crack evolution under arbitrary loads while introducing a path-independent J-integral that yields a generalized Griffith criterion for delayed fracture.
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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.
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The Role of Hydrogen Bridging Bonds in the Shear-Thickening and Jamming of Dense Suspensions
Solvent molecular size controls shear thickening and jamming in cornstarch suspensions by modulating hydrogen-bridging friction between particles.