1) TiV alloy
钛钒合金
2) Ti-V-based alloys
钛钒基合金
1.
Based on a overall review of the research and development of the Ti-V-based hydrogen storage electrode alloys, and the degradation mechanism of the hydrogen storage alloy electrodes, the Ti-V-based alloys were selected as the study objects of this thesis.
在此基础上,确定以钛钒基贮氢电极合金为研究对象,采用XRD/Rietveld、SEM、TEM和AES等材料分析方法以及恒电流充放电、电化学阻抗谱、线性极化、阳极极化和恒电位阶跃等电化学测试技术,对钛钒基合金的成分、相结构与电化学性能三者之间的关系进行了系统的研究,提出贮氢电极合金的“本征/非本征衰退机理”,并以钛钒基合金为实例对该机理进行了验证。
3) titanium-aluminium-vanadium alloy
钛铝钒合金
4) TiVCr based alloys
钛钒铬基合金
1.
The influence of suction cast on phase structures and hydrogen storage properties of TiVCr based alloys has been investigated in this work.
研究了吸铸对钛钒铬基合金结构和贮氢性能的影响。
5) Ti V Micro-alloyed Steel
钛钒微合金钢
6) T-Vi Microalloyed Steel
钒钛微合金钢
补充资料:钛13钒11铬3铝合金
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。
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参考词条