Numerical simulation research on the effect of explosive covering on explosive welding

[1] Fronczek D M, Wojewoda-Budka J, Chulist R, Et al., Structural properties of Ti/Al clads manufactured by explosive welding and annealing[J], Materials & Design, 91, pp. 80-89, (2016)

[2] Mahmood Y, Dai K D, Chen P W, Et al., Experimental and Numerical Study on Microstructure and Mechanical Properties of Ti-6Al-4V/Al-1060 Explosive Welding, Metals, 9, 11, (2019)

[3] Ren B X, Tao G, Wen P, Et al., Study on weldability window and interface morphology of steel tube and tungsten alloy rod welded by explosive welding, International Journal of Refractory Metals and Hard Materials, 84, (2019)

[4] Liu K Y, Chen P W, Feng J R, Et al., Fabrication and characterization of the Mo/CU bimetal with thick Mo layer and high interfacial strength, International Journal of Refractory Metals and Hard Materials, 94, (2021)

[5] Akbari M S A A, Farhadi S P., Experimental investigation of explosive welding of cp-titanium/AISI 304 stainless steel, Materials & Design, 30, 3, pp. 459-468, (2009)

[6] Gladkovsky S V, Kuteneva S V, Sergeev S N., Microstructure and mechanical properties of sandwich copper/steel composites produced by explosive welding, Materials Characterization, 154, pp. 294-304, (2019)

[7] Loureiro A, Mendes R, Ribeiro J B, Et al., Effect of explosive mixture on quality of explosive welds of copper to aluminium, Materials & Design, 95, pp. 256-267, (2016)

[8] Xing Tingyong, Zheng Yanjun, Cui Lishan, Et al., Influence of aging on damping behavior of TiNi/TiNi alloys synthesized by explosive welding, Transactions of Nonferrous Metals Society of China, 19, 6, pp. 1470-1473, (2009)

[9] Wu Xiaoming, Shi Changgen, Fang Zhonghang, Et al., Comparative study on welding energy and Interface characteristics of titanium aluminum explosive composites with and without interlayer, Materials & Design, 197, (2021)

[10] Mori D, Kasada R, Konishi S, Et al., Underwater explosive welding of tungsten to reduced-activation ferritic steel F82H[J], Fusion Engineering and Design, 89, 7-8, pp. 1086-1090, (2014)

[1] Fronczek D M, Wojewoda-Budka J, Chulist R, Et al., Structural properties of Ti/Al clads manufactured by explosive welding and annealing[J], Materials & Design, 91, pp. 80-89, (2016)

[2] Mahmood Y, Dai K D, Chen P W, Et al., Experimental and Numerical Study on Microstructure and Mechanical Properties of Ti-6Al-4V/Al-1060 Explosive Welding, Metals, 9, 11, (2019)

[3] Ren B X, Tao G, Wen P, Et al., Study on weldability window and interface morphology of steel tube and tungsten alloy rod welded by explosive welding, International Journal of Refractory Metals and Hard Materials, 84, (2019)

[4] Liu K Y, Chen P W, Feng J R, Et al., Fabrication and characterization of the Mo/CU bimetal with thick Mo layer and high interfacial strength, International Journal of Refractory Metals and Hard Materials, 94, (2021)

[5] Akbari M S A A, Farhadi S P., Experimental investigation of explosive welding of cp-titanium/AISI 304 stainless steel, Materials & Design, 30, 3, pp. 459-468, (2009)

[6] Gladkovsky S V, Kuteneva S V, Sergeev S N., Microstructure and mechanical properties of sandwich copper/steel composites produced by explosive welding, Materials Characterization, 154, pp. 294-304, (2019)

[7] Loureiro A, Mendes R, Ribeiro J B, Et al., Effect of explosive mixture on quality of explosive welds of copper to aluminium, Materials & Design, 95, pp. 256-267, (2016)

[8] Xing Tingyong, Zheng Yanjun, Cui Lishan, Et al., Influence of aging on damping behavior of TiNi/TiNi alloys synthesized by explosive welding, Transactions of Nonferrous Metals Society of China, 19, 6, pp. 1470-1473, (2009)

[9] Wu Xiaoming, Shi Changgen, Fang Zhonghang, Et al., Comparative study on welding energy and Interface characteristics of titanium aluminum explosive composites with and without interlayer, Materials & Design, 197, (2021)

[10] Mori D, Kasada R, Konishi S, Et al., Underwater explosive welding of tungsten to reduced-activation ferritic steel F82H[J], Fusion Engineering and Design, 89, 7-8, pp. 1086-1090, (2014)