1) high Nb containing TiAl-based alloy
高铌钛铝基合金
1.
The progress in research on high Nb containing TiAl-based alloy was summarized.
本文综述了高铌钛铝基合金研究进展,总结了合金的相结构和制备加工方法,探讨了微观组织、合金的相以及元素添加对合金性能的影响。
2) high-Nb TiAl alloy
高铌钛铝合金
3) titanium-niobium alloy
钛铌合金
1.
Objective:To investigate whether Ni~ 2+ of the Nitinol and Nitinol modified on its surfaces by the coating of metallic titanium and titanium-niobium alloy was separated or not in vivo and in vitro.
目的:探讨镍钛记忆合金(以下简称NiTi)及表面钛、钛铌合金涂层后Ni2+在体内、外试验中的析出情况。
4) Nb-Ti alloy
铌钛合金
5) TiAl-based alloys
钛铝基合金
1.
Present research status of brazing technology of TiAl-based alloys;
钛铝基合金钎焊技术的研究现状
2.
It is of significance to prepare TiAl-based alloys by cold crucible electromagnetic confinement and directional solidification technique because of its unique features without contamination and continuity during process.
冷坩埚电磁约束成形与定向凝固技术对于探索高质量钛铝基合金的制备成形具有重要意义。
6) TiAl-based alloy
钛铝基合金
1.
Effect of the compression on the oxidation resistance of the siliconized TiAl-based alloy;
压缩变形对渗硅钛铝基合金抗氧化性能的影响
2.
Siliconizing treatment on TiAl-based alloy was conducted by Al-Si molten alloy.
使用Al—Si合金熔体对钛铝基合金进行表面渗硅处理,在表层发生了不同程度的界面反应,生成成分比例不同的以Si,Ti,Al三元素为主的物相。
补充资料:铌三铝
分子式:Nb3Al
CAS号:
性质:超导化合物,Al5结构。密度4.54g/cm3,生成温度2060℃,中间相均相区为19%~24.5%(原子),超导临界温度18.9K,4.2K的上临界磁场为29.5T。金属铌和熔融铝直接反应或用铝还原氟铌酸钾制取。主要用作超导材料。
CAS号:
性质:超导化合物,Al5结构。密度4.54g/cm3,生成温度2060℃,中间相均相区为19%~24.5%(原子),超导临界温度18.9K,4.2K的上临界磁场为29.5T。金属铌和熔融铝直接反应或用铝还原氟铌酸钾制取。主要用作超导材料。
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