[2] [2] ZENG X Y,LI X J,WANG X H,et al.Formation and development of wavy interface in explosive welding[J].Rare Metal Materials and Engineering,2020,49(6):64-68.(in Chinese)

[4] [4] HOU G T,FENG J,YUAN A F,et al.Analysis of forming mechanism of interface wave in explosive welding processing[J].blasting,2013,30(4):120-124,147.(in Chinese)

[6] [6] NIAO G H,MA L L,LI X J,et al.Effect of charge mode on the interface wave of copper/steel explosive welding and wave formation mechanism[J].Journal of High Pressure Physics,2020,34(2):126-134.(in Chinese)

[8] [8] WANG F,GU Y M,LU M,et al.Numerical simulation of wavy interface generated by explosive welding[J].Journal of PLA University of Technology(Natural Science Edition),2004,5(2):64-68.(in Chinese)

[9] [9] EMURLAEVA,YU L Y,ALEKSANDROVA N S,et al.Structural transformations at the interface of explosively welded Al and Ti experimental research and numerical simulation[J].Key Engineering Materials,2022,6322:1056-1062.

[10] [10] SUN Z,SHI C,FANG Z,et al.A dynamic study of effect of multiple parameters on interface characteristic in double-vertical explosive welding[J].Materials Research Express,2020,7(1):016541-016541.

[11] [11] SUN Z,SHI C,WU X,et al.Comprehensive investigation of effect of the charge thickness and stand-off gap on interface characteristics of explosively welded TA2 and Q235B[J].Composite Interfaces,2020,27(11):977-993.

[12] [12] BAHRANI A S,BLACK T J,CROSSLAND B.The Mechanics of Wave Formation in Explosive Welding[J].Proceedings of the Royal Society,1967,296(1445):123-136.

[13] [13] GODUNOV S K,DERIBAS A A,ZABRODIN A V ,et al.Hydrodynamic effects in colliding solids[J].Journal of Computational Physics,1970,5(3):517-539.

[14] [14] GODUNOV S K,ZABRODIN A V,PROKOPOV G P.A computational scheme for two-dimensional nonstationary problems of gas dynamics and calculation of the flow from a shock wave approaching steady-state[J].Ussr Computational Mathematics & Mathematical Physics,1962,1(4):1187-1219.

[15] [15] CROW,JEAN E.Computational physics[M].Institute of Physics,1970.

[16] [16] COWAN G R,HOLTZMAN A H.Flow configurations in colliding plates:explosive bonding[J].Journal of Applied Physics,1963,34(4):928-939.

[17] [17] HUNT J N.Wave formation in explosive welding[J].Philosophical Magagzine,1968,17(148):669-680.

[18] [18] ZLOBIN B S,KISELEV V V,SHTERTSER A A.Unstable waves formed during explosive welding[J].Combustion,Explosion,and Shock Waves,2022,58(1):121-126.

[19] [19] ZHOU Q,LIU R,RAN C,et al.Effect of microstructure on mechanical properties of titanium-steel explosive welding interface[J].Materials Science & Engineering A,2022,830:142260-142260.

[20] [20] YANG M,XU J F,MA H H,et al.Elucidating the formation mechanism of the vortex at the Ta/Fe explosively welded interface using microstructure characterizations and numerical simulations[J].Metallurgical and Materials Transactions A,2021,53A(2):364-369.

[22] [22] YANG W Y,SUN Q,LI B,et al.Study on the inhomogeneity of interface microstructure and mechanical properties of explosive welded titanium steel[J].Pressure Vessel,2021,38(12):15-21.(in Chinese)

[24] [24] ZHOU B X,JIANG Y R.Transmission electron microscopy study of Cu-Al explosive bonding layer[J].Journal of Metal,1994,30(15):104-108.(in Chinese)

[26] [26] ZHOU H.Microstructure and evolution of explosive composite interface of Ti Ni alloy /Q235 steel[D].Hefei:University of Science and Technology of China,2021.(in Chinese)

[28] [28] PENG N F,YANG Y.Mechanism of vortex formation and evolution in Richtmyer-Meshkov instability[C]∥Proceedings of the 10th National Conference on Fluid Mechanics,2018:44-44.(in Chinese)

[30] [30] MA D.Richtmyer-meshkov instability of heavy/light interfaces[D].Hefei:University of Science and Technology of China,2020.(in Chinese)

[31] [31] BIRBHOFF G.Helmholtz and Taylor instability[J].Proceedings of Symposia in Applied Mathematics Ams,1962,13:55-76.

[32] [32] JACOBS J W,NIEDERHAUS C E.An experimental study of Richtmyer-Meshkov instability[C] ∥Third Microgravity Fluid Physics Conference,1996:271-275.

[34] [34] CHEN P,DUAN W D,ZENG G W,et al.Formation mechanism of interface waveforms and defect microstructure during explosive welding of Titanium/steel[J].Blasting,2019,36(1):126-132.(in Chinese)

[36] [36] ZENG X Y.Study on meso-mechanical behavior and defect control method of explosive welding interface[D].Dalian:Dalian University of Technology,2020.(in Chinese)

[38] [38] DAI H L.Elastokinetics[M].Changsha:Hunan University Press,2014.(in Chinese)