Effects of material failure criteria on design of vehicle parts under impact loading

Effects of material failure criteria on design of vehicle parts under impact loading

In this study, the effect of the failure criteria on the advanced high-strength steel and carbon steel B-pillar in case of a side impact is investigated to evaluate the effects of failure criteria on the accuracy of impact simulation. Three different failure criteria, namely Johnson-Cook, Bao-Xue-Wi...

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Bibliographic Details
Published in:International journal of crashworthiness Vol. 27; no. 1; pp. 80 - 91
Main Authors: Öztürk, İsmail, Kaya, Necmettin, Öztürk, Ferruh
Format: Journal Article
Language:English
Published: Cambridge Taylor & Francis 02-01-2022
Taylor & Francis Ltd
Subjects:
Absorption
advanced high-strength steels
Automotive parts
B-pillar crash analysis
carbon steel
Carbon steels
Criteria
Energy absorption
Evaluation
failure criteria
High strength steels
Impact analysis
impact loading
Impact loads
Impact velocity
Materials failure
Side impact
Simulation
vehicle crashworthiness
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Summary:In this study, the effect of the failure criteria on the advanced high-strength steel and carbon steel B-pillar in case of a side impact is investigated to evaluate the effects of failure criteria on the accuracy of impact simulation. Three different failure criteria, namely Johnson-Cook, Bao-Xue-Wierzbicki and Biquad, are compared concerning B-pillar material energy absorption for different impact velocities. The effects of failure criteria on the side impact simulations are examined for these failure criteria and impact velocities. Energy absorption values increased as the impact velocity increased for all failure criteria. The results of simulations were compared with those without the failure criteria to evaluate the effects of failure criteria on side impact simulations. It is shown and validated that failure criteria must be taken into consideration for the accuracy of impact simulations of automotive components designed with different types of steels.
ISSN:1358-8265
1573-8965
1754-2111
DOI:10.1080/13588265.2020.1774480