耐热镁合金

合金元素对耐热镁合金压入蠕变性能的影响

Effect of Alloying Elements on Indentation Creep Properties of Heat Resistant Magnesium Alloys

分析了镁合金的蠕变特点和现有镁铝基合金高温蠕变性能差的原因，总结了耐热镁合金材料设计原则，综述了耐热镁合金材料的研究、开发和应用情况，指出了今后的发展方向。

The creep behavior of magnesium alloys and the reasons for poor elevated-temperature creep property of current Mg-Al based alloys are analyzed . The materials design principles of heat resistant magnesium alloys are summarized . The research , development , and application status of heat resistant magnesium alloys are reviewed .

稀土Si耐热镁合金的研究，将大大促进我国镁合金的生产和应用，促进镁合金工业的发展。

The creep resistance alloys will accelerate the production and application of Mg alloy and boost the development of magnesium industry .

Mg-Gd-Y-Zr耐热镁合金的压缩变形行为

Deformation behavior of Mg-Gd-Y-Zr heat resistant magnesium alloy during hot-compression

Mg-Sr-X系列合金及其制备技术是当今全球耐热镁合金研究、开发的的热点。

Mg-Sr-X alloys and its preparing technology is current research interest of heat-resistant magnesium alloys .

本文以固相再生的方法再生ZM6耐热镁合金料。

In this paper , ZM6 heat-resistant magnesium alloy chips and scraps were prepared by solid state recycling .

合金化或微合金化作为改善合金性能或设计新型合金的重要手段之一，目前已普遍应用于Mg-Al系耐热镁合金的研究开发中。

Alloying elements addition is an important method to improve alloy property or design new al - loys , and has been widely used to study and develop Mg-Al based elevated temperature magnesium alloys at pre - sent .

稀土耐热镁合金发展现状及展望

Development Status and Prospect of Heat Resistant Rare Earth-magnesium Alloy

耐热镁合金的合金设计及组织控制

Alloy design and microstructure control of heat resistant Mg alloys

含稀土耐热镁合金的摩擦学行为研究

Tribological Characteristics of Heat Resistant Magnesium Alloy Containing Rare Earth

论述了耐热镁合金的研究现状。

Development of heat-resistant magnesium alloys is reviewed .

因此，有必要开发高性能的新型耐热镁合金。

Therefore , it is very necessary to develop new elevated temperature magnesium alloys .

耐热镁合金的研究进展

Research and Development of Heat Resistant Magnesium Alloy

对稀土耐热镁合金的研制开发、应用前景进行了展望。

The research , development and application prospect of heat resistant rare earth-magnesium alloy have been briefly analyzed .

显然，发展高强度耐热镁合金可以使镁合金更充分地应用于汽车工业。

Clearly , the development of high-strength and heat-resistant magnesium alloy can make it be more fully used in the automotive industry .

指出研究开发稀（碱）土耐热镁合金将是汽车用高性能镁合金材料的重要研究方向。

It is concluded that to development the rare earth and alkaline earth magnesium alloys with high performances is one of the important orientations for the future automotive industry .

本文介绍了稀土对耐热镁合金发展的影响，概括了稀土耐热镁合金的发展历史及现状。

This paper introduces the effects of rare earth on the development of heat resistant magnesium alloy and summarizes development history and recent status of heat resistant rare earth-magnesium alloy .

随着社会工业的飞速发展，不光对镁合金的性能要求越来越高，对大尺寸的稀土耐热镁合金型材的需求也越来越大。

With the quickly developing of society industry , not only the magnesium alloys with much higher properties were needed , but also the magnesium panels with much bigger size .

耐热镁合金是镁合金研究开发的热点之一，提高镁合金的耐热性能可以拓宽镁合金的应用范围。

The development of heat-resistant magnesium alloy is always focused by the research of magnesium alloy . The application of magnesium alloy could be widened according to improving its heat-resistant properties .

耐热镁合金具有密度低、比强度和比刚度高、导热性好、抗蠕变性能好等特点，在航空、航天、汽车等众多工业领域中具有重要的使用价值和广阔的应用前景。

Heat-resistant magnesium alloys have a number of desirable features , including low density . High strength-to-weight ratio , good conductor of heat and good resistance to creep , and they are now increasingly used in industry and have great prospects in various fields .

耐热铸造镁合金的研究现状及其发展趋势

The Current Research and Development Tendency of Cast Magnesium Alloys at Elevated Temperature

Mg-Nd-Zn-Zr耐热高强铸造镁合金

Casting Magnesium Alloy of Mg-Nd-Zn-Zr Series with Heat Resistance and High Strength

本课题的研究目的是改善Mg-Al系镁合金的耐热性能，开发&种新型低成本、高强度的含稀土耐热镁合金。

The purpose of the research is to develope of a new low-cost , high-strength rare-earth heat-resistant magnesium alloy by improving the heat resistance of Mg-Al based alloys .