1) niobium alloying
铌合金化
2) laser surface niobium alloying
激光表面铌合金化
1.
The microstructures and polarization curves of Zr-4 alloy treated by laser surface niobium alloying,electron beam surface niobium alloying and niobium ion implantation alloying were studied.
通过对Zr-4合金进行激光表面铌合金化、电子束表面铌合金化和铌离子注入,分析了表面铌合金化后锆合金表层的显微组织,并测定了表面合金化后锆合金在酸性溶液中的极化曲线。
3) electron beam surface niobium alloying
电子束表面铌合金化
1.
The microstructures and polarization curves of Zr-4 alloy treated by laser surface niobium alloying,electron beam surface niobium alloying and niobium ion implantation alloying were studied.
通过对Zr-4合金进行激光表面铌合金化、电子束表面铌合金化和铌离子注入,分析了表面铌合金化后锆合金表层的显微组织,并测定了表面合金化后锆合金在酸性溶液中的极化曲线。
4) Zr-Nb alloy
锆-铌合金
5) niobium alloy
铌合金
1.
Numerical simulation of electron beam welding temperature field of titanium alloy and niobium alloy;
钛合金与铌合金电子束焊温度场数值模拟
2.
Inductively coupled plasma-atomic emission spectrometric determination of major and micro elements in niobium alloys;
电感耦合等离子体原子发射光谱法测定铌合金中常量及微量元素
3.
A MoSi2 coating on C-103 niobium alloy was prepared by packing cementation,and the microstructures of the oxidized and unoxidized coatings were analyzed by XRD,SEM and EDS techniques.
采用包渗法在C-103铌合金基体上制备MoSi2涂层,通过X射线衍射、扫描电镜和能谱分析等手段研究涂层表面、截面形貌以及氧化后涂层结构变化,并分析硅化过程中涂层的形成机理。
6) uranium-niobium alloy
铀铌合金
1.
Computer simulation and experimental investigation on casting grain size for uranium-niobium alloy;
铀铌合金铸造晶粒度的计算机模拟与实验研究
2.
The results show that preheating and annealing can shorten the incubation period for the reactions of bulk uranium and uranium-niobium alloys with H_2.
用压力 体积 温度(P V T)法研究了铀和铀铌合金与氢气反应的动力学过程。
3.
The surface reaction of uranium-niobium alloy with carbon monoxide has been studied by x-ray photoelectron spectroscopy(XPS) and gas chromatography(GC).
采用X射线光电子能谱 (XPS)和气相色谱 (GC)研究了铀铌合金在 2 5℃与CO反应后表面层的组成和反应气氛的变化 。
参考词条
补充资料:机械合金化高温合金管材和方型材
机械合金化高温合金管材和方型材
机械舍金化高温合金管材和方型材
说明:补充资料仅用于学习参考,请勿用于其它任何用途。