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Polymeric composite materials incorporating an elastomeric interphase: A mathematical assessment

A mathematical model based upon the method of cells is extended in order to describe three-phase composite materials containing an interphase. A parametric study is performed wherein the effective properties of the composites are determined as a function of interphase material properties, interphase...

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Published in:Composites science and technology 1993-01, Vol.46 (4), p.307-318
Main Authors: Gardner, Steven D., Pittman, Charles U., Hackett, Robert M.
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Language:English
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creator Gardner, Steven D.
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description A mathematical model based upon the method of cells is extended in order to describe three-phase composite materials containing an interphase. A parametric study is performed wherein the effective properties of the composites are determined as a function of interphase material properties, interphase thickness and fiber volume fraction. The simulation is designed in particular towards describing the behavior of model composites which incorporate elastomeric polymers as an interphase to bond carbon fibers chemically to a polymeric matrix. Two hypothetical interphases are considered: one whose properties are representative of elastomers (Young's modulus less than fiber and matrix) and one whose properties are intermediate with respect to the fiber and matrix. The two cases provide a broad assessment of how the interphase properties influence the effective composite properties.
doi_str_mv 10.1016/0266-3538(93)90176-H
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language eng
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source Backfile Package - Materials Science [YMS]
subjects Applied sciences
carbon-fiber composites
composite material interphase
composite material modeling
Composites
effective properties of composites
Exact sciences and technology
Forms of application and semi-finished materials
Polymer industry, paints, wood
polymer-matrix composites
Technology of polymers
title Polymeric composite materials incorporating an elastomeric interphase: A mathematical assessment
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