动态回复和局部再结晶是主要的软化机制。
Dynamic recovery and local recrystallization is the main softening mechanism.
金属既可热锻(高于再结晶温度)也可冷锻。
The metal can be forged hot (above recrystallization temperatures) or cold.
变形量越大,则再结晶温度越低,晶粒尺寸越小;
The lower the recrystallization temperature, the smaller is the grain size.
再结晶温度、时间是立方织构形成的主要影响因素。
The recrystallization temperature and time are the main factors.
结果表明,随冷轧压加率的提高,再结晶温度降低。
The results show that the crystallization temperature decreases with the increase of cold pressure rate.
不同的再结晶退火温度与试样的显微硬度表现出复杂关系。
The different recrystallization annealing temperature and the micro-hardness of sample show the complex relationship.
或使瓶颈再结晶(变白),结晶的瓶颈能耐高的热灌温度。
PET bottle neck could stand up to a high hot fill temperature.
或使瓶颈再结晶(变白),结晶的瓶颈能耐高的热灌温度。
PET bottle neck could stand up to a high hot fill temperature.
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