A Computational Framework for Analyzing the Dynamic Behavior and Failure of Amorphous Polymers
A framework is presented for analyzing the low-temperature inelastic behavior of a class of amorphous polymers with full account taken of finite deformations and inertial effects. Viscoplastic constit...

ASCE Conf. Proc. / Table of Contents / ANALYTICAL AND EXPERIMENTAL STUDIES OF HIGH STRAIN...

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A Composite Material Model for High Strain Rates

Proceedings of the 11th International Conference on Engineering, Science, Construction, and Operations in Challenging Environments 2008
Proceedings of the 11th International Conference on Engineering, Science, Construction, and Operations in Challenging Environments 2008

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Pablo A. Salas,¹ David Benson,² Satchi Venkataraman,³ Matti J. Loikkanen,⁴ and Kevin R. Housen⁵
¹University of California & San Diego State University, San Diego, CA, psalasme@ucsd.edu
²University of California, San Diego, CA, dbenson@ucsd.edu
³San Diego State University, San Diego, CA, satchi@mail.sdsu
⁴Boeing Company, Seattle, WA, matti.j.loikkanen@boeing.com
⁵Boeing Company, Seattle, WA, kevin.r.housen@boeing.com

Forpolymer matrix composites subjected to large strain rates, it isimportant to correctly characterize the nonlinear and strain rate dependentresponse of polymers. For this purpose, viscoplastic constitutive equations originallyimplemented for metals have been modified to account for theeffects of hydrostatic effects and inelastic strains in polymers. Theresultant stress in the composite can then be obtained byusing a mixture theory that averages the individual stresses ofthe polymer and fiber (assumed to be elastic) constituents. Theimplementation of such analytical models using finite element methods constitutesone of the first objectives of the current effort. Acontinuum model that combines the individual constituents is defined usingmixture theory. Experimental tests will be used to validate thepreliminary analytical model and verify its efficiency and applicability forengineering applications.

©2008 ASCE

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http://dx.doi.org/10.1061/40988(323)72

ASCE SUBJECT HEADINGS

Composite materials, Strain rate, Finite element method

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