1) zinc-titanium-copper alloy
锌钛铜合金
2) Zn-Cu-Ti alloy
锌铜钛合金
1.
This thesis summarized the properties,usege and the application status in outside of Zn-Cu-Ti alloy,analysed the prospect of Zn-Cu-Ti alloy in home in the side of construction field,concluded that it would be used in construction field and the industry foreground would be good.
综述了锌铜钛合金的性质、用途和国外发展应用现状,重点从建筑应用的角度分析了锌铜钛合金在国内的应用前景,认为锌铜钛合金将率先在国内建筑领域打开应用市场,其产业前景令人乐观,并对合金产业作了讨论。
3) Titanaloy
['titən'ælɔi]
蒂塔纳洛伊钛铜锌合金
4) Zn-Ti alloy
锌钛合金
5) Cu-Zn alloy
铜锌合金
1.
It is reviewed that iron is used in industry wastewater treatment and Cu-Zn alloy is used in drinking water treatment,slightly polluted water treatment and pretreatment systems of rev.
本文综述了铁在工业废水中的应用现状以及铜锌合金在饮用水、微污染原水和反渗透、离子交换树脂预处理系统中的应用现状,并探讨了这些技术存在的优缺点和未来的发展方向。
2.
The theory of solid physics was introduced into the analysis about the effects of oxidative condition and alloy composition on the color of Cu-Zn alloy systems.
用分光光度计测定铜锌合金表面对不同波长光波的反射率,根据光谱波长及范围与颜色的关系给出了不同反射区域所对应的铜锌合金表面颜色,结合能带理论分析了加热时间、加热温度及合金成分对合金颜色的影响。
3.
The chemical composition, melting and moulding technics, as well as properties of Cu-Zn alloys for water treatment of boiler were studied in this work.
本工作研究锅炉水处理用铜锌合金的化学成分、熔炼方法、成型工艺及性能。
6) copper-zinc alloy
铜锌合金
1.
Cyanide-free copper-zinc alloy electroplating process for imitation gold;
无氰铜锌合金仿金电镀工艺
2.
A method for determination of 13 trace elements including Mg, Al, Ti, Cr, Mn, Ni, Cd, In, Sn, Sb, Tl, Pb and Bi in copper-zinc alloy by ICP-MS is described.
研究了应用电感耦合等离子体质谱法 (ICP MS)测定铜锌合金中Mg ,Al,Ti,Cr ,Mn ,Ni,Cd ,In ,Sn ,Sb ,Tl,Pb ,Bi共13种痕量元素的分析方法。
3.
The late-model copper-zinc alloy and mineral functional chinaware material were used to prepare an activated bed for water treatment of boiler .
本工作应用新型铜锌合金和功能矿物陶瓷材料制备锅炉水处理活化床,实现水垢晶体结构的微观调控,抑制锅炉硬垢的形成;建立锅炉水垢晶体生长动力学模型,探索锅炉水处理用活化床的节能与环保性能评价方法。
补充资料:锌钛铜合金
分子式:
CAS号:
性质:加入钛和铜的锌基合金。一般含钛0.1%,铜0.5%,平行轧制方向抗拉强度193MPa,延伸率40%。HV硬度58。杨氏模量96GPa。密度7.2g/cm3。轧制态的蠕变速率为同一数量级。采用真空熔炼制取。用于制造要求较高蠕度抗力的器件。
CAS号:
性质:加入钛和铜的锌基合金。一般含钛0.1%,铜0.5%,平行轧制方向抗拉强度193MPa,延伸率40%。HV硬度58。杨氏模量96GPa。密度7.2g/cm3。轧制态的蠕变速率为同一数量级。采用真空熔炼制取。用于制造要求较高蠕度抗力的器件。
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