The explosive bonding parameters were calculated and optimized before experiment.
试验前,首先对爆炸复合参数进行了计算和优化设计。
This paper analysed and calculated the dynamic yielding strength of plastic deformed metal in the bonding zone of explosive welding composite material in the condition of explosive welding.
用比拟的方法分析和计算了爆炸焊接条件下,爆炸复合材料结合区中塑性变形金属的动态屈服强度值。
Although the interface has the features of melt, and pressure welding, the molten and diffusion welding cannot explain the bonding mechanism of explosive welding.
实验表明,爆炸焊接界面虽然具有熔化、扩散和压力焊的特征,但不能用熔焊和扩散焊机理来解释爆炸焊接界面的成因。
The new technology enhanced whole bonding quality of explosive cladding plate more, reduced explosive charge in large scale, lowered disadvantageous effect on environment around.
此工艺进一步提高了爆炸复合板的整体结合质量,同时再次降低了焊接装药量,减小了对周围环境的不利影响。
The metallurgical bonding was achieved by combining effect of diffusion and local melting when the explosive parameters were selected correctly.
当爆炸参数选择正确时,可通过扩散和局部熔化的共同效应而达到冶金结合。
The metallurgical bonding was achieved by combining effect of diffusion and local melting when the explosive parameters were selected correctly.
当爆炸参数选择正确时,可通过扩散和局部熔化的共同效应而达到冶金结合。
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