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1.
The Hydrogen Absorption and Desorption Properties of V-Ti-Cr-Fe Alloys;
V-Ti-Cr-Fe合金吸放氢性能的研究
2.
Hydrogen storage properties of Ti-Cr-Mn-M(M=V,Fe,Ni,Cu) alloys
Ti-Cr-Mn-M(M=V、Fe、Ni、Cu)合金的储氢性能
3.
Research on Structures and Hydrogen Absorption/Desorption Performances of V-Ti-Cr-Fe Alloys;
V-Ti-Cr-Fe贮氢合金的结构与吸放氢行为研究
4.
Effect of Cerium Addition on Microstructure of Ti-V-Cr-Fe Hydrogen Storage Alloys
铈对Ti-V-Cr-Fe储氢合金显微组织的影响
5.
An Investigation on the Ti-V-Mn/Ti-Cr-V Hydrogen Storage Alloys and Hybrid Hydrogen Storage Vessel;
Ti-V-Mn/Ti-Cr-V储氢合金及混合储氢容器的研究
6.
Microstructure and Wear-resistance of Fe-Cr-Ti-B Hardfacing Alloys Containing TiB_2 Phases
含TiB_2相Fe-Cr-Ti-B堆焊合金的显微组织及耐磨性
7.
A Study on the Microstructures and Hydrogen Storage Characteristics of Ti-Cr-V Based Hydrogen Storage Alloys;
Ti-Cr-V系储氢合金的微结构及储氢特性研究
8.
The mechanism and functions of transition elements(V,Cr,Fe,Co) in TiMnM hydrogen storage alloys
过渡元素V、Cr、Fe、Co在贮氢合金TiMnM中的作用机理
9.
Microstructure and Wear Resistance of Fe-C-Cr-V-B High-chromium Hardfacing Alloys
Fe-C-Cr-V-B系高铬堆焊合金的显微组织及耐磨性
10.
Structures, Electrochemical Properties and the Mechanism of Improving the Cycling Stability of the Ti-V-Fe-Based Hydrogen Storage Alloys;
Ti-V-Fe基贮氢合金结构、电化学性能及循环稳定性改善机制研究
11.
Study on the Mechanical Properties of (Ti,V)C/Fe Produced by In-situ Synthesis;
(Ti,V)C/Fe的原位合成及机械性能研究
12.
Snoek Relaxational Peak in a Fe-Cr-Al Alloy;
Fe-Cr-Al合金中的Snoek弛豫
13.
The Effects of Multi-component Alloying and Ball-milling on the Microstructures and Hydrogen Storage Properties of Ti-V-Fe Based Hydrogen Storage Alloys;
多元合金化和球磨改性处理对Ti-V-Fe系储氢合金的微结构及储氢性能的影响
14.
Nano-crystalline Fe-Cr Alloy by mechanical alloying;
机械合金化制备纳米Fe-Cr合金
15.
Studies on Technology and Basic Mechanism of Plating Ni-Fe、Ni-Fe-Cr Alloy Foil and Ni-Cr Alloy;
Ni-Fe、Ni-Fe-Cr合金箔及Ni-Cr合金电沉积工艺和基础理论研究
16.
Effect of Cr on Microstructure and Hardness of AlCrxCuFeNi High-entropy Alloy System
Cr对Al-Cr-Cu-Fe-Ni高熵合金组织与硬度的影响
17.
Study on Microstructure and Performance of Cr-Ni-Ti Alloy Prepared by Arc Melting
电弧熔炼Cr-Ni-Ti合金组织与性能研究
18.
Laser-induced Self-propagating Reaction Synthesis of Ti-Fe System Alloys;
激光诱导自蔓延反应合成Ti-Fe系合金