1) Cu-Cr-Ti alloy
Cu-Cr-Ti合金
1.
The microstructures of Cu-Cr-Ti alloy were obtained by alloying way at different cooling conditions.
采用加钛合金化的方法得到了不同冷却条件下Cu-Cr-Ti合金的凝固组织。
2) Cu-Ni-Cr-Be-Ti alloy
Cu-Ni-Cr-Be-Ti合金
3) Ti-Cr alloy
Ti-Cr合金
4) Cu-Cr alloys
Cu-Cr合金
1.
Solidification behavior of induction melted Cu-Cr alloys;
感应加热熔炼Cu-Cr合金的凝固行为
2.
According to the"Empirical Electron Theory in Solid and Molecule(EET)",with the"hard sphere model",the valence electronic structures of the GP zone in Cu-Cr alloys are calculated.
应用“固体与分子经验电子理论”(EET),采用“硬球模型”,对Cu-Cr合金GP区的价电子结构进行计算。
3.
Cu-Cr alloys have been found many applications in industries because they exhibit an excellent combination of high mechanical strength of Cr with high electrical conductivities of Cu.
Cu-Cr合金因良好的结合了Cu的高导电性和Cr的高强度,在工业上具有广泛的应用,尤其是高Cr含量的Cu-Cr合金是中压真空断路器中使用最多的触头材料。
5) Cu-Cr alloy
Cu-Cr合金
1.
Effect of Cr distribution on the properties of Cu-Cr alloy;
Cr分布对Cu-Cr合金性能的影响
2.
Optimized Design for Cu-Cr Alloy Crystallizer in Continuous Casting;
连续铸造Cu-Cr合金结晶器优化设计
3.
Density functional theory of Cu-Cr alloy during aging precipitation process at low temperature;
Cu-Cr合金低温时效析出过程的密度泛函理论
补充资料:Ti-13V-11Cr-3A1 alloy
分子式:
CAS号:
性质:β钛合金。成分为钒13%,铬11%,铝3%,余量钛。退火后室温机械性能:抗拉强度862MPa,屈服强度827MPa,延伸率10%,弹性模量10.34×104MPa,HRC硬度32~36。采用真空自耗电弧炉熔炼制取。制造紧固件和较大面积的模锻件。
CAS号:
性质:β钛合金。成分为钒13%,铬11%,铝3%,余量钛。退火后室温机械性能:抗拉强度862MPa,屈服强度827MPa,延伸率10%,弹性模量10.34×104MPa,HRC硬度32~36。采用真空自耗电弧炉熔炼制取。制造紧固件和较大面积的模锻件。
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