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1)  Ti-Ni alloy thin film
Ti-Ni合金薄膜
2)  Ti alloy film
Ti合金薄膜
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)  Ni-Cr alloy thin film
Ni-Cr合金薄膜
1.
The results reveal that the fractal of Ni-Cr alloy thin film is less than 2.
采用动态蒙特卡罗(KMC)方法模拟电子束物理气相沉积(EB-PVD)制备Ni-Cr合金薄膜过程中沉积速率与薄膜微观结构之间的关系,并用分维理论研究薄膜表面形貌。
6)  Ni-P alloy film
Ni-P合金薄膜
1.
The structures and particle size of Ni-P alloy film coated on single crystal silicon substrate by chemical deposition were observed with scanning electron microscope(SEM),and its residual stresses after chemical deposition were measured by X-ray diffraction(XRD).
用扫描电镜(SEM)观察了化学沉积Ni-P合金薄膜/单晶硅基体的结构与颗粒度,利用X射线衍射(XRD)技术测试了其化学沉积后的残余应力,测量了激光热处理后残余应力的变化规律,分析了残余应力对磨损性能及界面结合强度的影响。
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。

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