1) aluminide micro-crystalline coating
铝化物微晶涂层
1.
The oxidation results conducted in air at 1000℃for 100h show that the aluminide micro-crystalline coatings exhibited superior oxidation resistance and improved the adhesion of oxide scales greatly.
采用新型高频电脉冲沉积技术在1Cr18Ni9Ti不锈钢表面上获得了晶粒尺寸约为几十到几百纳米的微晶铝化物涂层在1000℃空气中恒温氧化100h的实验结果表明:获得的铝化物微晶涂层具有优异的抗高温氧化性能,而且显著提高了氧化膜的抗剥落能力。
2) microcrystalline coating and microcrystalline coating with dispersed oxide particles
微晶涂层和弥散氧化物微晶涂层
3) aluminide coating
铝化物涂层
1.
High-temperature oxidation life of aluminide coating on Co-base superalloy;
钴基超合金铝化物涂层的高温氧化寿命
2.
High temperature oxidation behavior for aluminide coating on the single crystal superalloy containing rhenium;
含铼单晶高温合金铝化物涂层的高温氧化行为
3.
The development of aluminium alloys and aluminide coatings is reviewed.
综合国内外铝合金及铝化物涂层的发展,较全面地介绍了涂层类型、制备方法及应用。
4) Ni 20Cr Y 2O 3 ODS microcrystalline coatings
弥散氧化物微晶涂层
1.
Ni 20Cr Y 2O 3 ODS microcrystalline coatings were prepared on the surface of the Ni 20Cr alloy by a high frequency electro spark technique.
采用高频电脉冲沉积技术在Ni 2 0Cr合金表面上沉积MGH75 4ODS合金 ,获得了Ni 2 0Cr Y2 O3 弥散氧化物微晶涂层。
5) microcrystalline coating
微晶涂层
1.
Processes such as alloying, fabricating multiphase alloys and composites, directional solidification, mechanical alloying, hot pressing and hot isostatic pressing, combustion synthesis and microcrystalline coating to improve mechanical properties and high temperature oxidation resistance properties of the alloys are reviewed and discussed.
对NiAl金属间化合物的国内外研究现状如改善NiAl合金力学性能和高温抗氧化性能等所 采用的合金化、制备多相合金、制备复合材料、定向凝固、机械合金化、热压及热等静压、燃烧合成、 微晶涂层等工艺以及NiAl合金的超塑性行为进行了系统综述,着重介绍并论述了合金化及定向 凝固等工艺。
2.
The isothermal and cyclic oxidation behaviors of cast NiAl and NiAlY alloys and sputtered NiAl microcrystalline coating were investigated at 1000℃ in air by TGA, XRD and SEM.
利用 TGA,XRD,SEM对铸造β-NiAl和NiAlY合金以及溅射NiAl微晶涂层在1000℃空气中的恒温及循环氧化行为进行了研究,三种材料的恒温氧化动力学均近似符合抛物线规律,氧化过程中都有相变发生,微晶化能够促使细小、紧密、单一完整的α-Al2O3氧化膜形成,同时微晶化与添加稀土元素Y均明显提高循环氧化过程中氧化膜的粘附性。
3.
Ni-5Cr-5A1(at% ) microcrystalline coating was prepared on the substrate of the are material by magnetron sputtering.
利用磁控溅射在M-5Cr-5A1(原子分数,%)合金上制备与基体相同成分的微晶涂层。
6) NiAl microcrystalline coating
NiAl微晶涂层
1.
The effect of NiAl microcrystalline coating prepared by magnetron-sputtering on the isothermal oxidation behaviors of two NiAl-based eutectic alloys was investigated in static air at 1000-1150℃.
研究了磁控溅射NiAl微晶涂层对NiAl-28Cr-5Mo-1Hf和NiAl-33。
补充资料:氟碳涂层铝合金装饰板制成的铝合金幕墙建筑物
氟碳涂层铝合金装饰板制成的铝合金幕墙建筑物
J氟碳涂层铝合金装饰板制成的铝合金幕墙建筑物
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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