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Process for Design Optimization of Honeycomb Core Sandwich Panels for Blast Load Mitigation.

机译：用于减轻爆炸负荷的蜂窝芯夹芯板设计优化工艺。

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A general process for optimization of a sandwich panel to minimize the effects of air blast loading is presented here. The panel geometry consists of two metal face plates with a crushable honeycomb or other type of core. Optimization is necessary as there is strong coupling between the several variables and the physics, which makes parametric studies relatively ineffective. Virtual testing is used to develop a homogenized model for the stress-strain curve of the honeycomb core, which can be readily applied to other types of cellular core. The homogenized model has been validated by comparison to existing results as well as to results from detailed finite element (FE) models. A design of experiments (DOE) based response surface optimization method in combination with LS-DYNA is used to minimize dynamic deflection or acceleration of the back face plate. Constraints on total mass and on plastic strain in the face plates are imposed. The mechanism of lowering the backface deflection is by increasing front face plate thickness which effectively distributes the blast load to a larger area of the core and avoids local concave deformation of the front face plate. Further, core depth is increased which increases panel stiffness. For acceleration minimization results again produce a stiffer front face plate, but accompanied by a sufficiently soft core. The mechanism of lowering the backface acceleration is by absorbing energy with low transmitted stress. A clear cut comparison between monolithic metal plates and sandwich plates, for the same loading and failure criteria, is presented here.

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Nayak, S. K.; Singh, A. K.; Belegundu, A. D.; Yen, C. F.;
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年度 2012
页码 1-17
总页数 17
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Blast loads; Honeycomb cores; Sandwich panels; Coupling(Interaction); Finite element analysis; Metal plates; Optimization; Stiffness; Stress strain relations; Honeycomb; Homogenization; Sandwich plates; Virtual testing;

机译：爆炸载荷;蜂窝芯;夹层板;耦合（相互作用）;有限元分析;金属板;优化;刚度;应力应变关系;蜂窝结构;均匀化;夹层板;虚拟试验;

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专利

1. Process for design optimization of honeycomb core sandwich panels for blast load mitigation [J] . Nayak S.K., Singh A.K., Belegundu A.D., Structural and multidisciplinary optimization . 2013,第5期

机译：减轻爆炸载荷的蜂窝芯夹芯板设计优化的过程
2. Dynamic response of sandwich panel with hierarchical honeycomb cores subject to blast loading [J] . Sun Guangyong, Zhang Jingtao, Li Shiqiang, Thin-Walled Structures . 2019,第Sepa期

机译：分层蜂窝芯夹芯板在爆炸载荷作用下的动力响应
3. Dynamic response of sandwich panel with hierarchical honeycomb cores subject to blast loading [J] . Sun Guangyong, Zhang Jingtao, Li Shiqiang, Thin-Walled Structures . 2019,第SEPa期

机译：分层蜂窝芯夹芯板在爆炸载荷作用下的动力响应
4. OPTIMAL DESIGN OF LAMINATED EXTENDED HONEYCOMB CORES SANDWICH PANELS UNDER OUT-OF-PLANE LOAD WITH SIMPLY SUPPORTED BOUNDARY CONDITIONS USING GENETIC ALGORITHM [C] . M.J. Jamali, I. Rajabi, M.H. Kadivar International Conference on Sandwich Structures; 20050829-31; Aalborg(DK) . 2005

机译：平面算法在简单支持边界条件下层状加长和蜂窝芯夹芯板的优化设计
5. Design optimization of honeycomb sandwich panels for blast load mitigation. [D] . Nayak, Sumanta Kumar. 2012

机译：蜂窝夹芯板的设计优化，可减轻爆炸载荷。
6. Dynamic Response and Optimal Design of Curved Metallic Sandwich Panels under Blast Loading [O] . Chang Qi, Shu Yang, Li-Jun Yang, -1

机译：爆炸载荷作用下弯曲金属夹芯板的动力响应及优化设计
7. OPTIMUM DESIGN FOR SANDWICH PANELS WITH METALLIC HEXAGONAL HONEYCOMB CORE SUBJECTED TO BLAST LOADS [O] . EL-FAYAD M, ABDEL-WAHAB M, FARAG M., 2008

机译：带金属六边形蜂窝核心的夹层面板的优化设计对抗荷载

Process for Design Optimization of Honeycomb Core Sandwich Panels for Blast Load Mitigation.

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