ε-Cu,ε-Cu,在线英语词典,英文翻译,专业英语

1) ε-Cu

ε-Cu

The fine ε-Cu particles precipitated from the sample are observed via electron microscope, which proves the corresponding conclusions.

本文主要研究了Cu作为强化合金元素使用时在模具钢P80A中时效析出强化的规律,主要包括固溶温度、时效温度、时效时间对时效的影响规律,并通过电镜观察到了试样中析出的细小ε-Cu粒子,并据此验证相关结论。

ε-Cu precipitated in ferrite of 0.

40Cu贝氏体钢铁素体中析出ε-Cu与基体保持Kurdjumov-sachs半共格关系,错配位错理论计算出ε-Cu与基体的比界面能随温度升高而增大,Cu在823 K的扩散速率比在723 K大1 000倍,ε=Cu熟化速率提高10倍左右。

2) ε-Cu Precipitation

ε-Cu沉淀

3) ε-Cu precipitation

ε-Cu析出

4) ε-Cu phase

ε-Cu相

ε-Cu phase precipitated in the antibacterial stainless steel during antibacterial treat- ment has been analyzed in detail by OM,XRD,EPM and TEM.

采用OM、XRD、SEM、EPM和TEM分析了含Cu奥氏体不锈钢经抗菌热处理后所形成的ε-Cu相。

Through solution and age treatment, ε-Cu phases could precipitate dispersedly in the matrix of Cu-containing martensitic stainless steel, which gives the steel excellent antibacterial properties.

在马氏体不锈钢中添加适量铜,经过固溶和时效处理,在不锈钢中弥散析出ε-Cu相,可赋予不锈钢优良的抗菌性能。

5) ε-Cu precipitation

ε-Cu析出相

6) morphology of ε-Cu phase

ε-Cu相形貌

The morphology of ε-Cu phase and its interaction with dislocations in overaged 17-4 PH steel was observed SEM-TEM of Type H800.

用H800透射一扫描电镜研究过时效状态的17-4PH钢中ε-Cu相形貌及其与位错交互作用发现,从马氏体基体中析出的ε-Cu相为近乎球形,呈细小弥散任意分布,与位错有强烈的交互作用,随着时效温度的提高,其颗粒尺寸增大,与位错的交互作用亦有所减弱;而从逆变奥氏体中析出的ε-Cu相却比较粗大,为圆滑的短棒状,呈相互垂直的取向,且具有同一取向的ε-Cu按一定间隔线性排列的倾向,当其颗粒尺寸较小,间距小于79。

补充资料：1,4-丁二醇与ε-己内酯的共聚物

CAS：31831-53-5
分子式：(C6H10O2·C4H10O2)x
中文名称：1,4-丁二醇与ε-己内酯的共聚物
英文名称：Caprolactone, 1,4-butanediol polymer；2-Oxepanone,polymer with 1,4-butanediol

说明：补充资料仅用于学习参考，请勿用于其它任何用途。

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1) ε-Cu ε-Cu 1. The fine ε-Cu particles precipitated from the sample are observed via electron microscope, which proves the corresponding conclusions. 本文主要研究了Cu作为强化合金元素使用时在模具钢P80A中时效析出强化的规律,主要包括固溶温度、时效温度、时效时间对时效的影响规律,并通过电镜观察到了试样中析出的细小ε-Cu粒子,并据此验证相关结论。 2. ε-Cu precipitated in ferrite of 0. 40Cu贝氏体钢铁素体中析出ε-Cu与基体保持Kurdjumov-sachs半共格关系,错配位错理论计算出ε-Cu与基体的比界面能随温度升高而增大,Cu在823 K的扩散速率比在723 K大1 000倍,ε=Cu熟化速率提高10倍左右。 2) ε-Cu Precipitation ε-Cu沉淀 3) ε-Cu precipitation ε-Cu析出 4) ε-Cu phase ε-Cu相 1. ε-Cu phase precipitated in the antibacterial stainless steel during antibacterial treat- ment has been analyzed in detail by OM,XRD,EPM and TEM. 采用OM、XRD、SEM、EPM和TEM分析了含Cu奥氏体不锈钢经抗菌热处理后所形成的ε-Cu相。 2. Through solution and age treatment, ε-Cu phases could precipitate dispersedly in the matrix of Cu-containing martensitic stainless steel, which gives the steel excellent antibacterial properties. 在马氏体不锈钢中添加适量铜,经过固溶和时效处理,在不锈钢中弥散析出ε-Cu相,可赋予不锈钢优良的抗菌性能。 5) ε-Cu precipitation ε-Cu析出相 6) morphology of ε-Cu phase ε-Cu相形貌 1. The morphology of ε-Cu phase and its interaction with dislocations in overaged 17-4 PH steel was observed SEM-TEM of Type H800. 用H800透射一扫描电镜研究过时效状态的17-4PH钢中ε-Cu相形貌及其与位错交互作用发现,从马氏体基体中析出的ε-Cu相为近乎球形,呈细小弥散任意分布,与位错有强烈的交互作用,随着时效温度的提高,其颗粒尺寸增大,与位错的交互作用亦有所减弱;而从逆变奥氏体中析出的ε-Cu相却比较粗大,为圆滑的短棒状,呈相互垂直的取向,且具有同一取向的ε-Cu按一定间隔线性排列的倾向,当其颗粒尺寸较小,间距小于79。补充资料：1,4-丁二醇与ε-己内酯的共聚物 CAS：31831-53-5 分子式：(C6H10O2·C4H10O2)x 中文名称：1,4-丁二醇与ε-己内酯的共聚物英文名称：Caprolactone, 1,4-butanediol polymer；2-Oxepanone,polymer with 1,4-butanediol 说明：补充资料仅用于学习参考，请勿用于其它任何用途。
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