1) Mg-based materials
镁基材料
1.
Protective coatings were prepared on magnesium-based materials including AZ91 alloy, Al18B4O33w/AZ91 composite and SiCw/AZ91 composite by microarc oxidation (abbreviated as MAO) surface treatment technique in order to enhance corrosion resistance of these Mg-based materials.
本文以提高镁基材料的耐腐蚀性能为主要目的,采用微弧氧化表面处理技术在AZ91合金、Al18B4O33w/AZ91复合材料、SiCw/AZ91复合材料表面制备涂层。
2) Mg Matrix Composites
镁基复合材料
1.
The microstructure of interface for Mg matrix composites with different enhances were summarized, and the optimization way of interface was discussed.
论述了采用不同增强物增强的镁基复合材料的界面微观结构,并对界面优化的方法进行了探讨。
2.
The advantages of the in situ synthesized composites,as well as the principles,merits and disadvantages and the present research progress at home and abroad of the in situ synthesized Mg matrix composites are presented.
阐述了镁及镁合金的特性,介绍了原位复合材料的优点及原位制备镁基复合材料的方法原理、优缺点和国内外的研究进展。
3) magnesium matrix composites
镁基复合材料
1.
Review on the friction and wear performances of magnesium matrix composites;
镁基复合材料磨损性能研究进展
2.
Optimization of Preparing Technology for SiCp/AZ61 Magnesium Matrix Composites;
SiC_p/AZ61镁基复合材料制备工艺的优化
3.
Problems of the Gr(C)/Mg interface in Gr(C) fiber reinforced magnesium matrix composites;
石墨(碳)纤维增强镁基复合材料的界面问题
4) magnesium matrix composite
镁基复合材料
1.
Study on SiC particulate reinforced AZ91 magnesium matrix composite;
SiC颗粒增强AZ91镁基复合材料的研究
2.
Deformed microstructures and mechanical properties of magnesium matrix composites by powder metallurgy;
粉末冶金制备镁基复合材料的变形组织及性能
3.
The present status of particulate reinforced magnesium matrix composites;
颗粒增强镁基复合材料的研究现状
5) Mg-based hydrogen storage material
镁基储氢材料
1.
The research history,preparation technologies and applications of Mg-based hydrogen storage materials in the recent years are expatiated systematically,and the factors affecting hydrogen storage properties of Mg-based hydrogen storage materials are analyzed.
对近年来镁基储氢材料的研究开发概况、制备技术以及应用研究等方面进行了系统阐述,分析了影响镁基储氢材料储氢性能的主要因素,总结了采用机械合金化法、储氢合金组元部分替代、添加催化剂制成复合材料及表面改性等方法可以有效改善储氢性能,并对镁基储氢材料研究中存在的问题以及今后的发展方向进行了探讨与展望。
2.
Mg-based hydrogen storage material is very promising for hydrogen storage and heat storage application because of its thermal capacity and heat effect.
镁基储氢材料储氢容量大,并且吸放氢过程伴随一定的热效应,从而在氢气的存储和热能存储等方面具有潜在的应用前景。
6) Magnesium-based hydrogen storage material
镁基储氢材料
1.
The influence of nanocrystalline particles and catalysts on the hydriding and dehydrogenating properties of magnesium-based hydrogen storage materials are summarized in this paper.
总结了纳米晶、催化剂改性等对镁基储氢材料吸放氢性能的影响,介绍了不同镁基储氢复合材料的吸放氢性能以及基于密度泛函理论的第一原理计算方法在镁基储氢材料吸放氢性能方面所做的一些基础理论研究,指出随着量子化学、凝聚态物理等学科以及计算机技术的发展,理论计算方法在研究镁基储氢材料吸放氢性能方面的作用将越来越重要。
补充资料:碳化硅颗粒增强镁基复合材料
分子式:
CAS号:
性质:以镁合金为基体,由碳化硅颗粒增强的金属复合材料。通常加入3~20μm的颗粒15%~25%可明显提高材料的强度(拉伸强度399~428MPa)、弹性模量(79~84GPa)和延伸率(5.7%)。采用粉末冶金法和搅拌熔铸法制造,因具高比强度、比模量和耐磨性。用于制造齿轮、泵盖和武器零件。
CAS号:
性质:以镁合金为基体,由碳化硅颗粒增强的金属复合材料。通常加入3~20μm的颗粒15%~25%可明显提高材料的强度(拉伸强度399~428MPa)、弹性模量(79~84GPa)和延伸率(5.7%)。采用粉末冶金法和搅拌熔铸法制造,因具高比强度、比模量和耐磨性。用于制造齿轮、泵盖和武器零件。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条