双面爆炸复合理论计算与实验结果的对比研究
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摘要
为了有效的指导双面爆炸复合参数的选择,对普碳钢与普碳钢双面爆炸复合中复板碰撞速度的上下限进行理论计算,结合爆炸载荷驱动下复板碰撞速度的几个常用理论公式的计算结果与两组普碳钢与普碳钢的双面爆炸复合实验结果进行比较。结果表明:阿述兹公式与特里巴斯公式的计算结果与实验结果较吻合,可对双面爆炸复合的工程应用提供理论指导。
In order to effectively guide the selection of parameters for double sided explosive cladding,the upper and lower limit of the collision velocity for the double sided explosive cladding of ordinary carbon steel to ordinary carbon steel were calculated. The calculation results of collision velocity from several commonly theoretical formulas were compared with the experiment results of double sided explosive cladding for two ordinary carbon steel. The results calculated by Aziz's formula and Deribas' s formula were in good agreement with the experiment results. The research can provide theoretical guidance for engineering application of double sided explosive cladding.
In order to effectively guide the selection of parameters for double sided explosive cladding,the upper and lower limit of the collision velocity for the double sided explosive cladding of ordinary carbon steel to ordinary carbon steel were calculated. The calculation results of collision velocity from several commonly theoretical formulas were compared with the experiment results of double sided explosive cladding for two ordinary carbon steel. The results calculated by Aziz's formula and Deribas' s formula were in good agreement with the experiment results. The research can provide theoretical guidance for engineering application of double sided explosive cladding.
引文
[1]马宏昊,缪广红,沈兆武,等.一种爆炸复合专用结构炸药及爆炸复合方法和装置:中国专利,CN103317222A[P].2015-10-28.
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[3]BLAZYNSKI T Z.Explosive welding forming and compaction[M].London:Application Science Publishers Ltd,1983.
[4]李晓杰.双金属爆炸焊接上限[J].爆炸与冲击,1991,11(2):134-138.[4]LI Xiao-jie.The upper limit of bimetal explosive welding parameters[J].Explosion and Shock Waves,1991,11(2):134-138.(in Chinese)
[5]邵丙璜,张凯.爆炸焊接原理及其工程应用[M].大连:大连理工大学出版社,1987.
[6]COOPER Paul W.Explosives engineering[M].New York:Wiley VCH Inc,1997.
[7]KENNEDY J E,ZUKAS J A,WALTERS W P.The Gurney model of explosive output for driving metal explosive effects and applications[M].New York:Springer,1998.
[8]陆明,吕春绪.乳化炸药配方设计的数学模型研究[J].爆炸与冲击,2002,22(4):338-342.[8]LU Ming,LV Chun-xu.The mathematical model for the formulation design of emulsion explosive[J].Explosion and Shock Waves,2002,22(4):338-342.(in Chinese)
[2]缪广红,马宏昊,沈兆武,等.蜂窝结构炸药及其应用[J].含能材料,2014,22(5):693-697.[2]MIAO Guang-hong,MA Hong-hao,SHEN Zhao-wu,et al.Explosives with structure of honeycomb and its application[J].Chinese Journal of Energetic Materials,2014,22(5):693-697.(in Chinese)
[3]BLAZYNSKI T Z.Explosive welding forming and compaction[M].London:Application Science Publishers Ltd,1983.
[4]李晓杰.双金属爆炸焊接上限[J].爆炸与冲击,1991,11(2):134-138.[4]LI Xiao-jie.The upper limit of bimetal explosive welding parameters[J].Explosion and Shock Waves,1991,11(2):134-138.(in Chinese)
[5]邵丙璜,张凯.爆炸焊接原理及其工程应用[M].大连:大连理工大学出版社,1987.
[6]COOPER Paul W.Explosives engineering[M].New York:Wiley VCH Inc,1997.
[7]KENNEDY J E,ZUKAS J A,WALTERS W P.The Gurney model of explosive output for driving metal explosive effects and applications[M].New York:Springer,1998.
[8]陆明,吕春绪.乳化炸药配方设计的数学模型研究[J].爆炸与冲击,2002,22(4):338-342.[8]LU Ming,LV Chun-xu.The mathematical model for the formulation design of emulsion explosive[J].Explosion and Shock Waves,2002,22(4):338-342.(in Chinese)