Li, On the nature of periodic traction boundary conditions in micromechanical FE analyses of unit cells, IMA J

· 2012 · DOI 10.1093/imamat/hxr024

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Modelling the effect of fiber distribution on the transverse mechanical characteristics of unidirectionally reinforced continuous-fiber composite

cs.CE · 2026-05-27 · unverdicted · novelty 5.0

Simulations using a Swelling & Random Migration algorithm and finite element homogenization show clustered fiber distributions increase transverse stiffness by up to 20% but reduce tensile strength compared to equilibrium distributions, with mean nearest neighbor distance linearly predicting both pr

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Modelling the effect of fiber distribution on the transverse mechanical characteristics of unidirectionally reinforced continuous-fiber composite cs.CE · 2026-05-27 · unverdicted · none · ref 32
Simulations using a Swelling & Random Migration algorithm and finite element homogenization show clustered fiber distributions increase transverse stiffness by up to 20% but reduce tensile strength compared to equilibrium distributions, with mean nearest neighbor distance linearly predicting both pr

Li, On the nature of periodic traction boundary conditions in micromechanical FE analyses of unit cells, IMA J

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