William T. Kern scite author profile

William T. Kern

2Publications

24Citation Statements Received

48Citation Statements Given

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University of Michigan–Dearborn

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Finite element analysis and microscopy of natural fiber composites containing microcellular voids

et al. 2016

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Mechanical behaviors of chopped, natural fiber composites with and without closed-cell microcellular foamed structures are investigated using finite element analysis (FEA), with references to previously conducted experimental measurements of the stress-strain characteristics of analogous test specimens and their microscopic images. Analytical and FEA models are compared for a simple, aligned fiber case; the FEA models are then extended to composites having more general fiber arrangements. These FEA results are compared to experimental stressstrain data. Scanning electron microscopy (SEM) images of fracture surfaces from test specimens are analyzed, and correlations between numerically predicted behaviors and fracture paths, and fracture surface images are discussed. The FEA results reflect experimental trends well including the effects of fibers and the presence of voids. These have also been found to induce specific regions of stress concentration. Inspection of fracture surfaces reveals transition from ductile to brittle behavior at low strain rates, generally brittle failure modes, and little evidence of fibers stressed to their tensile limits.

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Mechanical behavior of microcellular, natural fiber reinforced composites at various strain rates and temperatures

et al. 2014

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William T. Kern

Finite element analysis and microscopy of natural fiber composites containing microcellular voids

Mechanical behavior of microcellular, natural fiber reinforced composites at various strain rates and temperatures

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