2) cryogenic deformation
低温变形
1.
High-strength and high-conductivity pure copper wires and Cu-Fe in situcomposites were produced by cryogenic deformation and thermo-mechanicalprocessing respectively.
本文运用低温变形和形变热处理方法分别制备了高强高导纯铜线材及铜铁原位复合材料。
3) low temperature deformation
低温形变
4) low temperature large deformation
低温大变形
1.
The differences between conventional TMCP and new type TMCP were compared,and two mechanisms of low temperature large deformation for fine-grained were summarized.
比较了传统TMCP与新型TMCP的异同,总结了目前采用的细化晶粒低温大变形方法的两种机制。
5) low temperature cyclic deformation
低温循环变形
6) low temperature thermal mechanical treatment
低温形变热处理
补充资料:低温
低温
hypothermia
低温状态下脑组织对缺氧的耐受性明显增加。体温低于37℃时,每减低1℃,脑组织代谢率减少6.7%,颅内压减低5.5%,在人工呼吸、心脏按压的同时或稍后应给予降温处理,可采用正规冬眠疗法使体温降至肛温35℃左右,目前尤为重视头部局部降温,戴冰帽,头温降至32℃左右,重症要降温3~5天。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条