A finite element formulation for nonlinear incompressible elastic and inelastic analysis.Computers & Structures, 26(1):357–409, 1987

Theodore Sussman, Klaus-J ¨urgen Bathe · 1987

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Multiscale topology optimization of compressible and nearly incompressible anisotropic hyperelastic structures using physics-augmented neural networks

cs.CE · 2026-04-07 · unverdicted · novelty 7.0

Physics-augmented neural networks act as stable, thermodynamically consistent surrogates for microscale problems, enabling simultaneous optimization of macroscale material layout and microscale descriptors in nonlinear finite-strain anisotropic hyperelastic structures.

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Multiscale topology optimization of compressible and nearly incompressible anisotropic hyperelastic structures using physics-augmented neural networks cs.CE · 2026-04-07 · unverdicted · none · ref 29
Physics-augmented neural networks act as stable, thermodynamically consistent surrogates for microscale problems, enabling simultaneous optimization of macroscale material layout and microscale descriptors in nonlinear finite-strain anisotropic hyperelastic structures.

A finite element formulation for nonlinear incompressible elastic and inelastic analysis.Computers & Structures, 26(1):357–409, 1987

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