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http://dx.doi.org/10.3795/KSME-A.2003.27.10.1793

Optimal Design of a Multi-Layered Plate Structure Under High-Velocity Impact  

Yoon, Deok-Hyun (현대자동차)
Park, Myung-Soo (연세대학교 대학원 기계공학과)
Yoo, Jeong-Hoon (연세대학교 기계공학부)
Chung, Dong-Teak (한국기술교육대학교 메카트로닉스공학부)
Publication Information
Transactions of the Korean Society of Mechanical Engineers A / v.27, no.10, 2003 , pp. 1793-1799 More about this Journal
Abstract
An optimal design of a multi-layered plate structure to endure high-velocity impact has been suggested by using size optimization after numerical simulations. The NET2D, a Lagrangian explicit time-integration finite element code for analyzing high-velocity impact, was used to find the parameters for the optimization. Three different materials such as mild steel, aluminum for a multi-layered plate structure and die steel for the pellet, were assumed. In order to consider the effects of strain rate hardening, strain hardening and thermal softening, Johnson-Cook model and Phenomenological Material Model were used as constitutive models for the simulation. It was carried out with several different gaps and thickness of layers to figure out the trend in terms of those parameters' changes under the constraint, which is against complete penetration. Also, the measuring domain has been shrunk with several elements to reduce the analyzing time. The response surface method based on the design of experiments was used as optimization algorithms. The optimized thickness of each layer in which perforation does not occur has been obtained at a constant velocity and a designated total thickness. The result is quite acceptable satisfying both the minimized deformation energy and the weight criteria. Furthermore, a conceptual idea for topology optimization was suggested for the future work.
Keywords
Size Optimization; Explicit Time-Integration Finite Element Method; High-Velocity Impact; Response Surface Method;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
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