mischmetall

mischmetall

1. Keywords AZ81 alloy;cerium-rich mischmetal;die casting;structures;mechanical properties;

AZ81合金;富铈混合稀土;压铸;组织;性能;

2. Keywords AZ91D-magnesium alloy;mischmetal;microstructure;mechanical properties;thermal analysis;

AZ91D镁合金;混合稀土;组织;力学性能;热分析;

3. Keywords AZ91 magnesium alloy;yttrium;mischmetal;fluidity;solidification structures;

AZ91镁合金;钇;混合稀土;流动性;凝固组织;

4. EFFECT OF La (OR MISCHMETAL Mm) ON THE HYDROGEN STORAGE CHARACTERISTICS OF TiFe

La(或混合稀土Mm)对TiFe贮氢性能的影响

5. Keywords XRF analysis;pressed powder disc method;mischmetal;

XRF分析法;粉末压片法;混合稀土;

6. Keywords intermediate frequency induction furnace;battery grade mischmetal;fusible salt protection;

中频感应炉;电池级混合稀土金属;熔盐保护;

7. Keywords hydrogen storage alloys;mischmetal;pattern recognition;uniform distribution design;

储氢合金;稀土元素;模式识别;均匀设计;

8. Furthermore, the suitable dosage of mischmetal addition has also been tested.

另外,还对混合稀土的适宜加入量进行了试验。

9. It is discovered that mischmetal can heighten the ignition point of ZM5 alloy obviously.

实验发现，混合稀土能明显提高ZM5镁合金的起燃温度。

10. cerium-rich mischmetal

富铈混合稀土

11. ON PROPERTIES OF La RICH AND Ce RICH MISCHMETAL HYDROGEN STORAGE ELECTRODES

富镧和富铈混合稀土贮氢电极的性能

12. Mischmetal incendiary agents are usually used to provide explosive,killing,or armor-piercing munitions with incendiary ability.

对稀土金属燃烧剂的研究国外（主要是美国）已告一段落，在我国还方兴未艾。

13. Mischmetal absorptivity and its effects on the element contents in pure magnesium and AZ91D alloy were investigated.

对纯镁及AZ91D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。

14. Mischmetal incendiary agents can be devided into two kinds: the composite type and the alloy type.

所对付的目标主要是机动装置的燃油系统，仓库目标，有生力量等。

15. The effects of yttrium and mischmetal on the microstructures, ageing behavior and tensile property of the Mg-Al-Zn alloy with various Al/Zn ratios were investigated.

探讨了钇和混合稀土对不同铝锌比的镁铝锌合金的显微组织、时效析出以及常温拉伸性能的影响。

16. The effect of the proportion of La/Ce in A-side of LPCNi3.55Co0.75Mn0.4Al0.3 alloy on the electrochemical properties was discussed, according to the fact that Pr is difficult to be adjusted in the production of LPC mischmetal.

本文还针对LPC混合稀土金属中Pr在生产难以调整的事实，优化研究了LPC Ni_(3.55)Co_(0.75)Mn_(0.4)Al_(0.3)合金的A侧La/Ce比对合金电化学性能的影响。

17. Keywords positron - annihilation technique （PAT）;AB5 - type mischmetal - based hydrogen storage alloy;defect;

正电子湮没技术;AB_5型稀土系贮氢合金;缺陷;

18. Keywords lost foam casting （LFC）;AZ91 magnesium;reuse of Mg alloy scraps;mechanical vibration;mischmetal;

消失模铸造;AZ91镁合金;镁合金废料回用;混合稀土;机械振动;

19. Keywords Mischmetal;Bulky Metallic Glasses;Crystallization Kinetics;Activation Energy;Crystallization Mechanism;

混合稀土;大块非晶合金;晶化动力学;激活能;晶化机制;

20. Keywords mischmetal;hydrogen storage electrode;property;

混合稀土;贮氢电极;性能;

21. Keywords Mischmetal（MM）;Ignition-proof Magnesium Alloy;Oxidization Film;Oxidation Kinetics;

混合稀土;阻燃镁合金;氧化膜;氧化动力学;

22. STUDIES OF PHASE RELATIONS BETWEEN MISCHMETAL (Mm) AND MmNi_5 TOGETHER WITH THEIR HYDROGEN ABSORPTION PROPERTIES

混合稀土金属(Mm)和MmNi_5的相关系及其吸氢性能的研究

23. Keywords Mischmetal;Rare-earth alloy;Incendiary agent;

混合稀土金属;稀土合金;燃烧剂;

24. mischmetal reduction

混合稀土金属还原

25. Keywords fusion electrolysis;mischmetal rich in lanthanum;chloride system;current efficiency;

熔盐电解;富镧金属;氯化物体系;电流效率;

26. special aluminium mischmetal

特种铝基混合稀土合金

27. Techniques about Liquating the Battery Grade Mischmetal Using the InterMediate Frequency Induction Furnace

用中频感应炉混熔电池级混合稀土金属工艺浅析

28. Starting fires with a mischmetal flint in a dry climate is easy, but in wet weather, you may need a cigarette lighter and some flammable helpers to get your fire going.

用燧石生火在干燥气候下相对容易，但在潮湿天气里，你得用打火机和一些易燃物来帮助你生火。

29. The influences of the usual impurities of Zn, Fe and Mg in mischmetal on the hydrogen storage and electrochemical properties of a hydrogen storage electrode are investigated.

研究了混合稀土中常见杂质锌、铁、镁对贮氢电极材料的贮氢性能、电化学性能等的影响。

30. The effects of mischmetal addition on the microstructure in centrifugal casting lead brinze hare been studied.

研究了混合稀土对离心铸造铅青铜组织的影响。

31. Keywords mischmetal;hydrogen storage electrode;electrochemistry;

稀土;贮氢电极;电化学;

32. Effect of Mischmetal on Microstructure and Ignition-Proof Performance of Mg Alloy

稀土对Mg合金组织及阻燃性能的影响

33. Keywords hydrogen storage property mischmetal;

贮氢;性能;混合稀土;

34. Again combined with the optimization of the rare earth composition in A side, a kind of MmNi 3.55 Co 0.75 Mn 0.4 Al 0.3 B x alloy (Mm: mischmetal) with excellent rate characteristics has been developed.

进一步结合A侧稀土成分优化,发展出一类具有优异倍率性能的MmNi3.55Co0.75Mn0.4Al0.3Bx(Mm为混合稀土)合金。

35. Improvement of Analytical Accuracy about Mischmetall by Pressed Powder Disc Method

采用粉末压片法提高混合稀土分析的准确度

36. Keywords Yttrium and mischmetal Magnesium alloy Structures Impact toughness;

钇及混合稀土;镁合金;组织;冲击韧度;

37. The effect of mischmetal additions on the ignition temperature of ZM5 Mg alloy was investigated and compared with t.

针对ZM5镁合金,研究了混合稀土及其加入量对起燃温度的影响,并与纯稀土的阻燃效果进行了比较。

38. cerium mischmetall

铈烯土

39. cerium mischmetal

铈镧合金 含铈的稀土元素合金

40. Keywords AZ31 alloy;Casting property;Antimony;Mischmetal;

铸造性能;锑;混合稀土;

41. Keywords magnesium alloy;mischmetal;ignition temperature;

镁合金;混合稀土;起燃温度;

42. Keywords Mg-Al-Zn Alloy;Mischmetal;Ageing;RE-containing Aluminum Compound;

镁铝锌合金;混合稀土;时效;铝稀土化合物;