1) nickel hardfacing alloy
高硬度镍基合金
2) Ni based hardfacing alloy
镍基硬面合金
3) iron-nickel-based cemented carbide
铁镍基硬质合金
4) Ni base superalloy
镍基高温合金
1.
The effect of inverted two-stage aging on microstructure and properties of a Ni base superalloy has been studied.
研究了固溶+两段时效热处理工艺对镍基高温合金组织及性能的影响。
2.
The liquid structure and melt treatment of M963 Ni base superalloy have been studied by using high temperature X-ray diffraction.
通过液态X射线衍射研究了铸态镍基高温合金M963的液态结构和熔体处理。
5) nickel base superalloy
镍基高温合金
1.
Study of fretting wear behavior of K417 nickel base superalloy;
K417镍基高温合金微动磨损行为的研究
2.
Low cycle fatigue tests of the cast nickel base superalloy M38 have been conducted at 900℃in air under fully reversed total strain control,strain ratio of -1 and the strain rate of 1×10~(-2) s~(-1).
对铸造镍基高温合金M38在900℃下的低周疲劳行为进行了研究。
3.
The corrosion behavior and mechanism of a new nickel base superalloy have beenstudied at 550℃ and 700℃ in the synthetic coal ash/flue gas environments.
在人工合成的煤灰/烟气环境中研究了一种新型镍基高温合金550℃和700℃的腐蚀行为和腐蚀机理。
6) Ni-base superalloy
镍基高温合金
1.
Determination of sulfate radical in molten salt corrosion product of Ni-base superalloy by turbidimetry;
硫酸钡比浊法测定镍基高温合金热腐蚀产物中硫酸根
2.
Denitrogenation of Ni-base superalloy during VIM;
镍基高温合金脱氮工艺的研究
3.
Denitrogenation and desulphurization during VIM refining Ni-base superalloy;
镍基高温合金的脱氮与脱硫
补充资料:高剩磁铝镍钴合金
高剩磁铝镍钴合金
alnic'o alloy with high remanence
gaoshenge一lun一egu heJ一n高剩磁铝镍钻合金(AI一Ni一e。alloy withhigh remanenel)剩磁大于2.ZT的铸造铝镍钻来永磁合金。剩磁即为合金中剩余磁感应强度或剩余磁通密度的简称。该合金钻含量较高(约为叔%),典型成分为Fe14NisA124Co3Cu(中国牌号LNG32,美国牌号Alnicos)。合金磁体的性能为:剩磁Brl.2一1.25T,矫顽力H。45一50kA/m,最大磁能积(BH)ma,32~40kJ/m3。如果制成定向结晶磁体(LNG52,Alnieo5 DG),则B,可提高到1.30一2.32T,(BH)na二可提高到52一56kJ/m3。 高剩磁铝镍钻合金由高频或中频感应炉熔炼,于砂型(或精密模壳)中浇铸,铸件经清理、切割和粗磨后进行热处理。热处理是保证所需磁性的关键环节,包括1250~1300C固溶处理,空冷至900一C,然后于居里温度以下和亚稳分解开始的温度实施磁场热处理,即在90。一700C范围内控速冷却(。.5一1.oC/S),之后进行62。一550C回火处理。在磁场处理和随后回火处理过程中,合金从高温a相分解成富铁钻的a相和富镍铝的al相,造成两相的成分差异和强的形状各向异性,从而获得高剩磁的磁各向异性磁体。 (肖文涛)
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