典型文献
Topology optimization of reactive material structures for penetrative projectiles
文献摘要:
Recently,reactive materials have been developed for penetrative projectiles to improve impact resistance and energy capacity.However,the design of a reactive material structure,involving shape and size,is challenging because of difficulties such as high non-linearity of impact resistance,manufacturing limi-tations of reactive materials and high expenses of penetration experiments.In this study,a design optimization methodology for the reactive material structure is developed based on the finite element analysis.A finite element model for penetration analysis is introduced to save the expenses of the ex-periments.Impact resistance is assessed through the analysis,and result is calibrated by comparing with experimental results.Based on the model,topology optimization is introduced to determine shape of the structure.The design variables and constraints of the optimization are proposed considering the manufacturing limitations,and the optimal shape that can be manufactured by cold spraying is deter-mined.Based on the optimal shape,size optimization is introduced to determine the geometric di-mensions of the structure.As a result,optimal design of the reactive material structure and steel case of the penetrative projectile,which maximizes the impact resistance,is determined.Using the design process proposed in this study,reactive material structures can be designed considering not only me-chanical performances but also manufacturing limitations,with reasonable time and cost.
文献关键词:
中图分类号:
作者姓名:
Shinyu Kim;Saekyeol Kim;Taekyun Kim;Sangin Choi;Tae Hee Lee;Jung Su Park;Sang-Hyun Jung
作者机构:
Department of Automotive Engineering,Hanyang University,222 Wangsimni-ro,Seongdong-gu,Seoul,04763,Republic of Korea;The 4th R&D Institute,Agency for Defense Development,35,Yuseong P.O.Box,Daejeon,34186,Republic of Korea
文献出处:
引用格式:
[1]Shinyu Kim;Saekyeol Kim;Taekyun Kim;Sangin Choi;Tae Hee Lee;Jung Su Park;Sang-Hyun Jung-.Topology optimization of reactive material structures for penetrative projectiles)[J].防务技术,2022(07):1205-1218
A类:
penetrative,limi
B类:
Topology,optimization,reactive,structures,projectiles,Recently,materials,have,been,developed,improve,impact,resistance,energy,capacity,However,involving,shape,size,challenging,because,difficulties,such,high,linearity,manufacturing,expenses,penetration,experiments,In,this,study,methodology,finite,element,analysis,model,introduced,save,Impact,assessed,through,calibrated,by,comparing,experimental,results,Based,topology,variables,constraints,are,proposed,considering,limitations,optimal,that,can,manufactured,cold,spraying,geometric,mensions,steel,case,which,maximizes,determined,Using,process,designed,not,only,chanical,performances,but,also,reasonable,cost
AB值:
0.414295
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