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- low active martensite steel 低活化马氏体钢
- low activation martensitic steel 低活化马氏体钢
- China low activation martensitic steel CLAM钢
- The microstructure and mechanical properties of China low activation martensitic steel 低活化马氏体钢的微观结构与力学性能
- Abstract The irradiation damage behavior of two China low activation martensitic (CLAM) steels with different composition was studied by high voltage electron microscope. 摘要 利用超高压透射电子显微镜研究了两种成分的低活化马氏体钢(CLAM钢)的辐照损伤行为。
- By the penetration and ballistic test for different state nitrogen alloyed austenitic steels and low alloyed martensite steel,their penetration mechanism was analysed. 对不同状态含氮奥氏体钢板和马氏体钢板进行了抗枪弹与抗杆式模拟弹试验,分析了它们的穿甲机理。
- Especially the polymer by ion beam processing exceeds martensite steel in the surface hardness. 特别是其表面硬度远高于目前公认的最硬的马氏体钢,其耐磨性明显优于滚珠轴承钢。
- The relationship between fracture toughness and notch toughness, tensile ductilities in lath martensite steel has been investigated. 研究了超高强度板条马氏体钢的平面应变断裂韧性与缺口韧性、拉伸塑性之间的关系。
- LOW CARBON MARTENSITE STEEL FOR ROCK DRILLING ROD 低碳马氏体钢重型凿岩钎杆的研制
- Nitrogen alloyed austenitic steels showed excellent ballistic property,higher than that of martensite steel. 含氮奥氏体钢具有优良的抗弹性能,并优于传统马氏体钢的抗弹性能。
- For mass efficiency of penetration,martensite steel increases in line with strength,and nitrogen alloyed au-stenitic steel is much higher than that of the same strength martensite steel. 马氏体钢抗杆式模拟弹防护系数随着强度的提高而提高,呈线性关系,含氮奥氏体钢穿甲防护系数远远高于同一强度级别的马氏体钢。
- If K+ or Mg2 was absent, gill Na-K-ATPase appears very low activity. 研究了牙鲜幼鱼由盐度3OpPt向低盐(24、18、12、6pPt)适应过程中血浆渗透压和鳃丝Na+一K+~ATPase活力的变化。
- The low activity of NOS secreted by placenta may be relative to the pathogenesis of PIH and IUGR. ? 胎盘的nos活性降低与IUGR及妊高征的发病有关
- Research and Making on Medium Carbon Low Alloy Martensite Steel Mill Liners 中碳低合金马氏体钢衬板的研制
- Coli EP810 can produce transaminase with high activity and aspartase with low activity after culture. 大肠杆菌EP8-10经培养后产生高活力转氨酶和低活力的天冬氨酸酶,而E。
- Low active resin core flux solder 低活性化树脂芯焊锡丝
- Hydrogen embrittlement can become important in martensitic steels. 马氏体钢容易出现氢脆现象。
- low active program counter carry-in 低活动率程序计数器进位输入
- You should also try to avoid migrating during a scheduled vacuuming interval, which often occurs during periods of low activity. 还应尽量避免在计划的数据清除时段进行迁移,此时段往往是在低活动期间。
- The experiment results show that the opportunity of post heat treatment has the greater influence on the martensitic steel weld,and post heat treatment of the martensitic steel should start after the martensite transform completely. 试验证明,后热处理时机的不同对马氏体耐热钢焊缝冲击韧度有比较大的影响,马氏体耐热钢的后热处理应在马氏体转变完全后开始较为合适。