含能材料
含能材料
함능재료
ENERGETIC MATERIALS
2009年
5期
583-587
,共5页
计算科学%炸药%切削%数值模拟
計算科學%炸藥%切削%數值模擬
계산과학%작약%절삭%수치모의
computation science%explosive%machining%numerical simulation
采用LS-DYNA显式非线性动力分析程序,针对HMX基PBX炸药材料的切削加工进行了切削数值模拟及相关模型的研究,完成了不同切削参数下切削力的数值计算,与实验测量结果吻合较好.研究表明,在切削宽度远大于切削层厚度的条件下,采用平面应变切削模型进行炸药切削数值模拟是可行的,等效应力失效准则适合于描述炸药切屑的断裂和分离.切削力的计算结果显示,切削力随切深和进给量的增大而增大,切削速度对切削力的影响不明显,其中,切深对切削力的影响最为显著.
採用LS-DYNA顯式非線性動力分析程序,針對HMX基PBX炸藥材料的切削加工進行瞭切削數值模擬及相關模型的研究,完成瞭不同切削參數下切削力的數值計算,與實驗測量結果吻閤較好.研究錶明,在切削寬度遠大于切削層厚度的條件下,採用平麵應變切削模型進行炸藥切削數值模擬是可行的,等效應力失效準則適閤于描述炸藥切屑的斷裂和分離.切削力的計算結果顯示,切削力隨切深和進給量的增大而增大,切削速度對切削力的影響不明顯,其中,切深對切削力的影響最為顯著.
채용LS-DYNA현식비선성동력분석정서,침대HMX기PBX작약재료적절삭가공진행료절삭수치모의급상관모형적연구,완성료불동절삭삼수하절삭력적수치계산,여실험측량결과문합교호.연구표명,재절삭관도원대우절삭층후도적조건하,채용평면응변절삭모형진행작약절삭수치모의시가행적,등효응력실효준칙괄합우묘술작약절설적단렬화분리.절삭력적계산결과현시,절삭력수절심화진급량적증대이증대,절삭속도대절삭력적영향불명현,기중,절심대절삭력적영향최위현저.
Numerical simulation and related models for HMX based PBX explosive machining were performed and studied by using LS-DYNA. Tool forces with various cutting parameters were computed for HMX based PBX explosive, and the calculational results agree well with the experimental results. Results show that the plane strain model is reliable for simulation of explosive machining when cutting width is far greater than cutting layer thickness. Effective stress failure criterion is appropriate for simulating chip separation of explosive. The tool force increases with increasing of depth of cut and feed rate, and cutting speed has no obvious effect on tool force. Depth of cut affects tool force most greatly among the three parameters.
