Vol. 2, No. 2, 2007
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Bistable structures for energy absorption, I: Metallic structures

Zachary Whitman & Valeria La Saponara

Abstract

This paper presents proof-of-concept experiments on metallic bistable structures, and is followed by a companion paper about experiments on composite bistable structures. A bistable structure is characterized by a stress/strain curve with stable branches separated by unstable branches. The authors were interested in a particular bistable structure, one that once activated, has a second stronger state which has the ability to sustain higher loads. This allows for a better distribution of damage. In addition, the structure keeps its integrity for a longer time, leading to a fail safe design. Results on metallic configurations under tensile loading are shown in this paper. In particular, chains with one, two, and three bistable elements of 5052-H32 aluminum were designed, manufactured, tested, and compared to their corresponding baselines. A strain energy increase from 11% to about 30% is shown with respect to the baselines. Moreover, a comparative study with A36 annealed mild steel and C10100 copper shows the effect of the different ductility and stiffness on energy absorption.
Keywords

tension, metal, energy absorption, bistable

Authors
Zachary Whitman
Southwest Research Institute
Valeria La Saponara
Department of Mechanical and Aeronautical Engineering
One Shields Ave
University of California
Davis, CA 95616-5294