1) Ti-50.2Ni alloy
Ti-50.2Ni合金
2) Ti Alloy
Ti合金
1.
Preparation and Research of Medical Ti Alloy Surface Biology Glass Coating;
医用Ti合金表面生物玻璃涂层的制备与研究
2.
Effect of collagen and heat treatment on the properties of HA coating on Ti alloy;
胶原和热处理对Ti合金表面HA涂层性能的影响
3.
Effect of rare earth element on microstructure and mechanical properties of powder metallurgy Ti alloy;
添加稀土元素对粉末冶金Ti合金显微组织和力学性能的影响
3) Ni-Ti alloy
Ni-Ti合金
1.
Study on the vacuum hot-pressed technology of Ni-Ti alloys based on Ni and Ti foils;
基于箔带材Ni-Ti合金的真空热压工艺研究
2.
Preparation of Ni-Ti alloy by direct electrochemical deoxidation in low temperature molten salt
低温熔盐电解制备Ni-Ti合金
3.
The results show that Ti(C,N)-based cermets without Ni-Ti alloy present typical core-rim microstructure and nearly spherical shape of hard phase; the microstructure of cermets gets finer,and the shape of hard phase becomes multiangular with the increasing of Ni-Ti alloy,the interface between hard phase.
采用粉末冶金方法真空烧结制备了添加Ni-Ti形状记忆合金的Ti(C,N)-Co系金属陶瓷,研究了Ni-Ti合金对Ti(C,N)基金属陶瓷显微组织和力学性能的影响。
4) Ti-Ni alloy
Ti-Ni合金
1.
Preparation of diamond-like carbon films on Ti-Ni alloy by pulsed vacuum arc technique;
Ti-Ni合金上镀制类金刚石薄膜研究
2.
At the same time, the DSC curve gives the Ti-Ni alloy’s martensitic start temperature (Ms) and end temperature (Mf), the austenitic start temperature (As) and end temperatur.
同时,给出了Ti-Ni合金的马氏体起始温度Ms,马氏体结束温度Mf,奥氏体起始温As和奥氏体结束温度Af,并对其相变过程进行了判断。
3.
DSC curves in Ti-Ni alloys can be classified into 6 kinds.
结果表明,Ti-Ni合金的DSC曲线分6种类型。
5) Ti-Mo alloy
Ti-Mo合金
1.
Based on the calculated results,the influences of Mo contents on theβphase stability and elastic property of Ti-Mo alloys were investigated.
5%的Ti-Mo二元合金的能量、电子结构以及弹性性质进行了理论计算,研究了Mo含量对Ti-Mo合金的β结构稳定性和弹性性质的影响。
2.
The density, Vickers hardness, compressive strength, elastic modulus and bending strength of the Ti-Mo alloy were examined by adding Mo into pure Ti to prepare the binary alloy.
在纯钛中加入Mo元素制成二元Ti-Mo合金,测定了Ti-Mo合金的密度、维氏硬度、抗压强度、弹性模量及抗弯强度等性能。
6) Ti-Fe alloy
Ti-Fe合金
1.
Influence of composition on microstructure and properties of Ti-Fe alloys prepared by laser-induced self-propagating reaction synthesis;
成分对激光诱导自蔓延反应合成Ti-Fe合金组织性能影响
2.
Ti-Fe alloy nanometer powders with particle size between 5 nm~30 nm were prepared by gas evaporation with arc as a heating source.
实验结果表明,纳米粉末中化合物相的生成规律与Ti-Fe合金平衡相图的不同。
补充资料:Ti-Ni based memory alloy
分子式:
CAS号:
性质:具有形状记忆效应的TiNi金属间化合物。与其他金属间化合物不同,它具有很高的塑性。该合金具有较大的形状记忆应变(6%~10%)和较高的恢复应力(200~760MPa)。合金在马氏体状态屈服强度为100~200MPa,奥氏体状态屈服强度约在200~700MPa之间,断裂强度约700~1000MPa。在Af以上加载,卸载后显示超弹性行为,在适宜温度范围内热-机械处理后显示双程形状记忆效应。具有较高记忆寿命,预应变<0.5%,循环次数可在107以上。TiNi记忆合金还包括TiNi-Cu、TiNi-Co、TiNi-Fe和TiNi-Nb等具有较高实用价值记忆合金,其中Ti50Ni47Fe3合金是制造管接头等紧固件的良好材料。
CAS号:
性质:具有形状记忆效应的TiNi金属间化合物。与其他金属间化合物不同,它具有很高的塑性。该合金具有较大的形状记忆应变(6%~10%)和较高的恢复应力(200~760MPa)。合金在马氏体状态屈服强度为100~200MPa,奥氏体状态屈服强度约在200~700MPa之间,断裂强度约700~1000MPa。在Af以上加载,卸载后显示超弹性行为,在适宜温度范围内热-机械处理后显示双程形状记忆效应。具有较高记忆寿命,预应变<0.5%,循环次数可在107以上。TiNi记忆合金还包括TiNi-Cu、TiNi-Co、TiNi-Fe和TiNi-Nb等具有较高实用价值记忆合金,其中Ti50Ni47Fe3合金是制造管接头等紧固件的良好材料。
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