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Journal Article

Citation

Wekeze J, Wuttrich R, Ramaley M. Int. J. Crashworthiness 2000; 5(4): 405-416.

Copyright

(Copyright © 2000, Informa - Taylor and Francis Group)

DOI

unavailable

PMID

unavailable

Abstract

The paper presents results from research efforts focused on possible crashworthiness and safety improvements of existing Breakaway Cable Terminals (BCT). A need for such improvements became evident from several full-scale crash tests and preliminary computational mechanics analyses. A nonlinear, dynamic, 3-D finite element code LS-DYNA was utilized in the study to identify problems in the existing BCT. Analytical data and actual crash test results led to the conclusion that the terminal is too stiff in the initial phase of the end-on impact. Acceleration histories provided an evidence of poor dissipation of vehicle kinetic energy among different parts of the BCT. The study was restricted to existing terminals and its primary objective was to improve the crashworthiness of the terminal during end-on impacts. An expected low cost-to-benefit ratio was also an important constraint in this research. Finite element models of 820C passenger car (Honda Civic) and 2000P pickup truck (Chevrolet C2500) were adopted as impactors. Computational mechanics was used exclusively in this feasibility study to achieve its goals. The final recommendations include strengthening of the buffer section, addition of the nose blockout to the post one, and material elimination in strategically located areas of the W-beam. Computer runs were performed for end-on impacts and for impacts at two critical points on the W-beam. Extensive computational mechanics analysis indicated that these modifications appear to be beneficial for improving the BCT safety performance.

Language: en

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