A validated three-dimensional, heterogenous finite element model of the rotator cuff and the effects of collagen orientation

Williamson, P · 2023 · DOI 10.1007/s10439-022-03114-9

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Constitutive parameter inference using physics-based data-driven modeling in full volume datasets of intact and torn rotator cuff tendons

physics.bio-ph · 2026-01-14 · conditional · novelty 5.0

Variational system identification infers material parameters for neo-Hookean, modified HGO, and reduced polynomial models from full-volume tendon strain data, with the modified HGO and three-term polynomial capturing key intact and injured behaviors better than neo-Hookean.

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Constitutive parameter inference using physics-based data-driven modeling in full volume datasets of intact and torn rotator cuff tendons physics.bio-ph · 2026-01-14 · conditional · none · ref 64
Variational system identification infers material parameters for neo-Hookean, modified HGO, and reduced polynomial models from full-volume tendon strain data, with the modified HGO and three-term polynomial capturing key intact and injured behaviors better than neo-Hookean.

A validated three-dimensional, heterogenous finite element model of the rotator cuff and the effects of collagen orientation

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