火力与指挥控制
火力與指揮控製
화력여지휘공제
FIRE CONTROL & COMMAND CONTROL
2015年
4期
72-75
,共4页
熊飞%石全%王广彦%陈材
熊飛%石全%王廣彥%陳材
웅비%석전%왕엄언%진재
等效靶%陶瓷复合装甲%均质钢板%数值仿真
等效靶%陶瓷複閤裝甲%均質鋼闆%數值倣真
등효파%도자복합장갑%균질강판%수치방진
equivalent target%ceramic compound armor%steel target%numerical simulation
利用有限元软件ANSYS/LS-DYNA对钨合金长杆弹侵彻陶瓷复合装甲与均质钢进行了数值仿真。重点分析了长杆弹垂直侵彻复合装甲全过程,研究了钨合金长杆弹体入射速度与弹体剩余动能、损失动能之间的关系。同时,拟合了长杆弹在不同入射速度侵彻均质钢靶下弹体剩余动能与靶板厚度之间的关系。并根据终点效应关系式,建立了弹体在不同入射速度下陶瓷复合装甲的均质钢等效靶板。分析结果表明,陶瓷复合装甲等效均质钢靶板厚度随弹体入射速度呈先增加后稳定趋势。研究结果对毁伤效能试验与战斗部设计等具有一定的参考价值和借鉴意义。
利用有限元軟件ANSYS/LS-DYNA對鎢閤金長桿彈侵徹陶瓷複閤裝甲與均質鋼進行瞭數值倣真。重點分析瞭長桿彈垂直侵徹複閤裝甲全過程,研究瞭鎢閤金長桿彈體入射速度與彈體剩餘動能、損失動能之間的關繫。同時,擬閤瞭長桿彈在不同入射速度侵徹均質鋼靶下彈體剩餘動能與靶闆厚度之間的關繫。併根據終點效應關繫式,建立瞭彈體在不同入射速度下陶瓷複閤裝甲的均質鋼等效靶闆。分析結果錶明,陶瓷複閤裝甲等效均質鋼靶闆厚度隨彈體入射速度呈先增加後穩定趨勢。研究結果對燬傷效能試驗與戰鬥部設計等具有一定的參攷價值和藉鑒意義。
이용유한원연건ANSYS/LS-DYNA대오합금장간탄침철도자복합장갑여균질강진행료수치방진。중점분석료장간탄수직침철복합장갑전과정,연구료오합금장간탄체입사속도여탄체잉여동능、손실동능지간적관계。동시,의합료장간탄재불동입사속도침철균질강파하탄체잉여동능여파판후도지간적관계。병근거종점효응관계식,건립료탄체재불동입사속도하도자복합장갑적균질강등효파판。분석결과표명,도자복합장갑등효균질강파판후도수탄체입사속도정선증가후은정추세。연구결과대훼상효능시험여전두부설계등구유일정적삼고개치화차감의의。
The process of the long-rod projectile of tungsten alloy penetrating into the ceramic compound armor and steel target are analyzed with the ANSYS/LS-DYNA software. And the effect of projectile’s velocity on the residual and lost kinetic energy are researched. Meanwhile,the relationship between the residual kinetic energy and target’s thickness projectile’s velocity is established at different projectile’s velocity when the long-rod projectile penetrated into the steel target. And equivalent steel target of ceramic compound armor is built by the relationship between target’s terminal damage effect and projectile’s velocity. The analyze result show that the thickness of equivalent target increase at the beginning and then keep steady. The research results were meaningful to experience of damage efficiency and warhead design.
