本文总结了稀土镁合金的研究工作。
A review was made on the investigations of the rare earth (re) containing magnesium alloys.
本发明提供的方法可以较准确测量稀土镁合金新相形成温度区间并且具有实用性。
The method in the invention can accurately measure the rare earth magnesium alloy new phase formation temperature range and is practical.
主要研究稀土镁合金中稀土总量的测定。选择草酸作沉淀剂,重量法测定稀土总量。
The determination of total rare earth content of rare earth-magnesium alloy were studied. It was used oxalate to be sediment to determine of total rare earth content with gravimetric method.
阐述了稀土镁合金的合金化原理,对稀土-镁中间合金的制备方法及稀土镁合金的熔炼工艺作了较为详细的介绍。
In this paper, the alloying principle of re Mg alloy was described, at the same time, the processes for preparation of re Mg master alloy and smelting of re Mg alloy were introduced in detail.
研究了采用稀土多元共渗方法提高AZ91镁合金表面耐腐蚀性能的作用。
This paper investigates improving corrosion resistance of AZ91 magnesium alloy surface by permeating rare earths.
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.
初步讨论了稀土元素对镁合金耐热性能的影响机理。
The effects of rare earth elements on the heat resistant properties of magnesium alloy have been primarily discussed.
研究了稀土元素对AZ 91 D压铸镁合金高周疲劳性能的影响,并对疲劳断口的组织形貌进行了分析。
Influence of rare earth elements on high-cycle fatigue properties of AZ91D alloy was investigated and the fatigue fracture morphology was also analyzed.
采用硝酸铈和硝酸镧混合溶液对AZ31镁合金进行了双稀土转化处理,讨论了浸渍时间对转化膜耐腐蚀性能的影响。
AZ31 Mg alloy substrates were soaked in the mixed solution of cerium nitrate and lanthanum nitrate to generate dual rare earth conversion film.
叙述了在电弧炉中用稀土富渣、硅铁、重晶石、石灰等原料冶炼稀土硅钡镁合金的研制过程。
Smelting of SiMgREBa alloy with rare earth rich slag, barite and lime in electric-arc furnace is introduced in the paper.
采用常规铸造方法,向ZA155高锌镁合金熔体中加入适量富铈混合稀土获得了稀土合金化的高锌镁合金。
Rare-earth alloyed high zinc magnesium alloy was obtained by adding proper Ce-rich misch metals into high zinc ZA155 magnesium alloy under conventional condition.
在常规铸造条件下,向高锌镁合金熔体中加入适量混合稀土获得高锌镁合金。
The high zinc magnesium matrix composite was fabricated by adding mix race earth into the molten high zinc magnesium alloy using common casting.
本文叙述了稀土硅钡镁合金的研制过程。
The develop process of SiMgREBa alloy is introduced in the paper.
镁合金稀土转化膜技术是一种环保型镁合金表面处理新技术。
The rare earth conversion coating technology of magnesium alloys has been developing as an environmental-friendly surface treatment technology for magnesium alloys.
稀土元素作为微量元素加入铝、镁合金中,可以净化合金熔体,细化、变质微观组织,减少夹杂。
The addition of rare earth (re) as trace elements to aluminum or magnesium alloys can purify the melts, refine and modify the microstructure, reduce the inclusion.
用差热分析及热裂环法研究了锑和混合稀土对AZ31镁合金铸造性能的影响。
The effects of antimony and mischmetal on the casting properties of AZ31 alloy were investigated using the differential thermal analysis and hot tearing ring method.
随着稀土元素加入量的增加 ,可以显著提高铝、镁合金的综合性能特别是高温力学性能。
The addition of more RE elements can significantly enhance the comprehensive properties, especially mechanical behavior at high temperature.
本文重点介绍了高稀土含量镁合金和低稀土含量镁合金的强韧化方法。
Strengthening methods for Mg alloys with high RE contents and low RE contents were introduced respectively in this paper.
经过稀土渗入处理后的镁合金,显微组织均匀、致密,有利于耐蚀性的提高。
The treatment may homogenize, densify microstructure, and further more improve the surface corrosion resistance.
扫描电镜分析结果显示添加稀土的镁合金疲劳断口呈现出准解理断裂特征。
The results by SEM results show that AZ91D alloy by addition rare earth elements possess the features of quasi-cleavage fracture.
对纯镁及AZ 91 D镁合金中添加富铈混合稀土的收得率及其各元素含量的变化规律进行了研究。
Mischmetal absorptivity and its effects on the element contents in pure magnesium and AZ91D alloy were investigated.
添加稀土元素使镁合金的室温拉伸性能得到提高。
The tensile property of the alloy at ambient temperature was improved also.
分析认为混合稀土的加入减少了合金液的氧化,反应形成了含稀土氯化物和氧化物的夹杂与镁合金液具有较大的密度差,有利于夹杂的沉降去除。
The mixture rare earths additions decrease the AZ91D melt oxidation and that the heavier inclusions including RECl_x and RE_xO_y are easier to sink.
添加稀土元素使镁合金的室温拉伸性能得到提高。
The tensile property of the alloy at ambient temperature was improved als…
我公司除了能生产国家标准中所列的各种品牌的稀土合金外,还可为用户生产稀土铜镁合金,稀土钡镁合金、稀土锰镁合金、稀土钙镁合金、稀土铝镁合金、稀土锶镁合金和复合型孕育剂。
In addition to the RE-Mg-Si-Fe alloys, the company also produce RE-Cu-Mg, RE-Ba-Mg, RE-Mn-Mg, RE-Ca-Mg, RE-Al-Mg and RE-Sr-Mg alloys with the customer required specifications.
我公司除了能生产国家标准中所列的各种品牌的稀土合金外,还可为用户生产稀土铜镁合金,稀土钡镁合金、稀土锰镁合金、稀土钙镁合金、稀土铝镁合金、稀土锶镁合金和复合型孕育剂。
In addition to the RE-Mg-Si-Fe alloys, the company also produce RE-Cu-Mg, RE-Ba-Mg, RE-Mn-Mg, RE-Ca-Mg, RE-Al-Mg and RE-Sr-Mg alloys with the customer required specifications.
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