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On the Constitutive Law for the Mechanical Quasi-static Response of Criss-Cross Composites (on the Example of UHMWPE)

On the Constitutive Law for the Mechanical Quasi-static Response of Criss-Cross Composites (on... In this paper, out-of-plane compression of criss-cross composite materials, i.e. materials with ply stacking sequence of [0∘/90∘] n , is studied experimentally and analytically. All these composite materials have some common properties, such as 90∘ rotation (around the axis perpendicular to the ply planes) symmetry in macroscopic properties; small ply thickness compared to all other linear dimensions (thickness of the whole material, linear dimensions in the ply plane); significantly different Poisson ratios between the fibre direction/perpendicular-to-the-fibre direction and the two perpendiculars to the fibre directions; ply thicknesses between 30 and 70 μ m. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Human Factors and Mechanical Engineering for Defense and Safety Springer Journals

On the Constitutive Law for the Mechanical Quasi-static Response of Criss-Cross Composites (on the Example of UHMWPE)

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Publisher
Springer Journals
Copyright
Copyright © 2017 by Springer Nature Singapore Pte Ltd.
Subject
Engineering; Mechanical Engineering; Structural Materials; Textile Engineering; Security Science and Technology
ISSN
2509-8004
eISSN
2367-2544
DOI
10.1007/s41314-017-0006-5
Publisher site
See Article on Publisher Site

Abstract

In this paper, out-of-plane compression of criss-cross composite materials, i.e. materials with ply stacking sequence of [0∘/90∘] n , is studied experimentally and analytically. All these composite materials have some common properties, such as 90∘ rotation (around the axis perpendicular to the ply planes) symmetry in macroscopic properties; small ply thickness compared to all other linear dimensions (thickness of the whole material, linear dimensions in the ply plane); significantly different Poisson ratios between the fibre direction/perpendicular-to-the-fibre direction and the two perpendiculars to the fibre directions; ply thicknesses between 30 and 70 μ m.

Journal

Human Factors and Mechanical Engineering for Defense and SafetySpringer Journals

Published: Nov 4, 2017

References