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• Physics-Informed Reduced-Order Operator Learning for Hyperelasticity in Continuum Micromechanics physics.comp-ph · 2026-05-08 · unverdicted · none · ref 20

  EquiNO with Q-DEIM creates reduced-order physics-informed surrogates for 3D hyperelastic RVEs that enforce equilibrium and periodicity by construction, achieve 10^3 speedups, and accurately interpolate and extrapolate stresses from few snapshots.

• Empirical Material Sampling and Linearisation -- A Simple and Efficient Strain-Space Model Order Reduction Approach for Computational Homogenisation in Large-Deformation Hyperelasticity cs.CE · 2026-04-29 · unverdicted · none · ref 31

  EMSL groups material points into clusters, samples a reference strain per cluster once per increment, and computes a linearised stress estimate from the reference tangent and POD strain modes, yielding an affine reduced system that requires no iterations online and Pareto-dominates prior strain-cubc

• Quantifying the effects of particle clustering in random thermoelastic composites -- numerical and mean-field analyses cond-mat.soft · 2026-05-04 · unverdicted · none · ref 9

  Clustering of spherical particles in random thermoelastic composites measurably alters effective properties and local fields, as shown by finite-element simulations and an extended mean-field cluster model.