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There are four new achievements of this work on the theory and technology of explosive welding.(1) It has been found and defined three kinds of bonding interfaces: big wavy, small wavy and micro wavy, and the micro wavy interface is the best. In a cladding plate,it is for the first time to find that the form of interface presents regular distribution.(2) Although the interface has the features of melt, diffusion and pressure welding in the mean time, the seam and "hole" brought by the melt weaken the bonding strength of interface greatly, and the effect of melt on interface must be eliminated in explosive welding, so explosive welding is not a melt weld. The diffusion welding is a kind of form of pressure welding, and the diffusion is not the reason of the bonding of interface but the result of interface high pressure. So the diffusion welding cannot also explain the bonding mechanism of it. The experiment and theory make clear that explosive welding is a special pressure one.(3) To get good interface of no melt, explosive charge must be selected on the low limit of welding windows. In explosive welding, the drive plate should be treated as the viscous and plastoelastic body, not incompressible fluid. The bending moment under the explosive welding loading must be greater than that under dynamic limit of drive plate. According to the condition, the lower limit of explosive welding is obtained. It is about 20% less than that obtained by tradition calculation, and suitable for engineering application.(4) It is for the first time to test and study on soil anvil characteristics and change regularity under explosive welding impact loading. Through soil anvil parameter optimization analysis, it is the best for explosive welding with sandy soil of water content 17.00% and density 1.74g/cm3.

参考文献

[1] Z.M. Zheng;Z.S. Yang.[M].北京:国防工业出版社,1981:469.
[2] B Crossland.[M].Explosive Welding of Metals and Its Application Clarendon Oxford,1982:197.
[3] C G Shi .[D].PhD Dissertation, PLA University of Science and Technology (Nanjing),2000.
[4] Y H Wang;C G Shi .[J].材料科学与工艺(英文版),1998,6(06):35.
[5] Y M Zheng.[J].钢铁研究,1998(01):30.
[6] Y. LI;H.B. Xiao;P. Zhao.[J].Research of Iron and Steel(in Chinese),1998(01):30.
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