装甲兵工程学院学报
裝甲兵工程學院學報
장갑병공정학원학보
JOURNAL OF ARMORED FORCE ENGINEERING INSTITUTE
2012年
1期
78-81
,共4页
丁华东%方宁象%刘云峰%狄铮
丁華東%方寧象%劉雲峰%狄錚
정화동%방저상%류운봉%적쟁
陶瓷基复合装甲%靶板结构设计%防护机理%穿甲机理
陶瓷基複閤裝甲%靶闆結構設計%防護機理%穿甲機理
도자기복합장갑%파판결구설계%방호궤리%천갑궤리
ceramics based composite armor%target structure design%protection mechanism%armor piercing mechanism
基于对材料特性和防弹机理的认识,设计了由Al2O3陶瓷、616装甲钢和高强PE材料构成的陶瓷基复合装甲板,并用现役127.mm穿甲燃烧弹进行靶试考核,检验靶板设计思路,结果表明:防护面密度为128 kg/m2的靶板可防住该弹。
基于對材料特性和防彈機理的認識,設計瞭由Al2O3陶瓷、616裝甲鋼和高彊PE材料構成的陶瓷基複閤裝甲闆,併用現役127.mm穿甲燃燒彈進行靶試攷覈,檢驗靶闆設計思路,結果錶明:防護麵密度為128 kg/m2的靶闆可防住該彈。
기우대재료특성화방탄궤리적인식,설계료유Al2O3도자、616장갑강화고강PE재료구성적도자기복합장갑판,병용현역127.mm천갑연소탄진행파시고핵,검험파판설계사로,결과표명:방호면밀도위128 kg/m2적파판가방주해탄。
Based on the understanding for the materials characteristic and projectile resistant mechanism, the ceramics based composite armor consisting of PE material, Al2O3 ceramics and steel 616 is designed and produced. The composite armor ballistic performance is examined by 12.7 mm armor piercing incendiary, and the result shows that the target with protection surface density of 128 kg/m2 is able to resist the 12.7 mm projectile.
