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。
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.
结果表明,在给定屈服强度水平下结构的延性需求强烈地依赖于场地条件、设计分组等因素。
After being compared with the mean ductility demand, it is found that ductility demand is strongly dependent on site conditions and design characteristic periods for a given strength level.
在同样晶粒度和硬度,不添加杂质的条件下,马氏体有较低的屈服强度、较高的冲击断裂功以及较低的塑脆转变温度,这些都由于较细的平均碳化物尺寸引起。
For the same grain size and hardness in the unembrittled conditions, martensite has lower yield strength higher Charpy fracture energy and lower FATT due to finer mean carbide size.
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