1) galvanneal temperature
合金化温度
1.
This paper studies the effects of galvannealing time and galvanneal temperature on the powdering-resistance of high strength IF galvanized sheet.
选取高强度IF钢热镀锌板,通过控制合金化工艺参数获得了不同w(Fe)和相结构的镀层,研究了合金化时间与合金化温度对于合金化镀层抗粉化性能的影响。
2) temperature and alloying
温度与合金化
3) magnetic temperature compensation alloy
磁温度补偿合金
1.
Effect of heat treatment on thermal magnetic performances and microstructure of Fe_(69.07)Ni_(29.25)Mn_(0.615)Si_(0.50)C_(0.50)magnetic temperature compensation alloy;
热处理对Fe_(69.07)Ni_(29.25)Mn_(0.615)Si_(0.50)C_(0.50)磁温度补偿合金热磁性能和微观结构的影响
2.
Characterization of temperature stability of permanent magnet with magnetic temperature compensation alloy was discussed.
讨论了磁温度补偿合金与永磁体组合后的磁性能和温度稳定性的表征。
3.
Influence of forge technique on the performance of Fe-Ni magnetic temperature compensation alloy was studied by optical microscopy and magnetic property test.
采用光学显微镜、静态冲击法磁性能测试设备等研究了锻造工艺对铁镍磁温度补偿合金饱和磁感应强度Bm和磁温度系数△B/△T0-100℃的影响规律。
4) temperature compensation alloy
温度补偿合金
5) temperature compensation alloy
温度补偿用合金
6) superalloy
[英][,sju:pər'ælɔi] [美][,supɚ'ælɔɪ]
高温高强度合金
补充资料:机械合金化高温合金管材和方型材
机械合金化高温合金管材和方型材
机械舍金化高温合金管材和方型材
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