1) Ti14 titanium
Ti14钛合金
2) Ti14 alloy
Ti14合金
1.
Microstructure and mechanical properties of Ti14 alloy after thermal exposure at 300 ℃;
300℃热暴露后Ti14合金的组织和性能
2.
Microstructure evolution of Ti14 alloy during semi-solid deformation
Ti14合金半固态变形的组织演变特征
3) titanium and its alloys
钛和钛合金
1.
The barriers were prospected to be used in titanium and its alloys as protective coatings.
概述了防止氢和氢同位素渗透壁垒层的研究进展,展望了这些壁垒层在钛和钛合金基体上的应用前景。
4) titanium and its alloys
钛及钛合金
1.
A simultaneous determination of oxygen and hydrogen in titanium and its alloys on infrared absorption has been described,and the optimal conditions have been obtained.
叙述了用红外吸收法对钛及钛合金中氧和氢联合测定的方法,取得了测定的最佳条件。
2.
Anodizing coloring mechanism of titanium and its alloys was analyzed to make sure the relationship of fiun thickness and coloring power source, so that the technological method and current design parameters were deduced to keep the color consistence of bath production, which provided an available method for coloring of titanium and its alloys.
分析了钛及钛合金阳极氧化着色机理及色膜厚度与氧化着色电源之间的关系,得出了保证成批量着色颜色一致性的工艺方法及电流设计参数,为钛及钛合金着色的应用提供了一种可用的方法。
3.
However, the production and utilization of titanium and its alloys are limited for their high chemical activity at molten state.
钛及钛合金具有密度小、强度高、耐腐蚀等一系列优点,在航空航天、国防军事、民用轻工等领域均有广泛应用前景。
5) Ti and its alloy
钛及钛合金
1.
The determination of Zr, Ru, Pd, Hf, Cu, Y, V, Mo, Nb, Al, Co, Ni, Ta, Bi, Sn, Cr and Mn in Ti and its alloys have been studied using an atomic emisson spectrum spectroscopy.
采用发射光谱分析技术,研究了钛及钛合金中Zr,Ru,Pd,Hf,Cu,Y,V,Mo,Nb,Al,Co,Ni,Ta,Bi,Sn,Cr,Mn的光谱测定方法。
6) titanium and titanium alloy
钛及钛合金
1.
Discussion about specified residual elongation stress in the standard of titanium and titanium alloy;
钛及钛合金标准中规定残余伸长应力的探讨
2.
Preparation of metallographic specimen for titanium and titanium alloy used for surgical implants
外科植入物用钛及钛合金金相试样制作浅谈
3.
The paper introduces the possibility of application of the titanium and titanium alloy for wrought products of motorcar.
介绍了汽车中使用钛及钛合金各类加工材的可能性。
补充资料:Ti-55高温钛合金显微组织
Ti-55高温钛合金显微组织
丫‘“合‘{丫:黔
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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