Processing and Excellent Oxidation Resistance of Nanocrystalline Fe-Cr Alloys

机译：纳米晶Fe-Cr合金的加工工艺和优异的抗氧化性

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Abstract: Nanocrystalline and microcrystalline Fe-10Cr alloys were prepared by high energy ball milling followed by compaction and sintering, and then oxidized in air for 52 hours at 400°C. The oxidation resistance of nanocrystalline Fe-10Cr alloy as determined by measuring the weight gain after regular time intervals was compared with that of the microcrystalline alloy of same chemical composition (also prepared by the same processing route and oxidized under identical conditions). Oxidation resistance of nanocrystalline Fe10Cr alloy was found to be in excess of an order of magnitude superior than that of microcrystalline FelOCr alloy. The paper also presents results of secondary ion mass spectrometry of oxidized samples of nanocrystalline and microcrystalline Fe-Cr alloys, evidencing the formation of a more protective oxide scale in the nanocrystalline alloy.

机译：摘要：通过高能球磨，压实和烧结，然后在空气中于400°C氧化52小时，制备了纳米晶和微晶Fe-10Cr合金。将通过在规则的时间间隔后测量重量增加而确定的纳米晶Fe-10Cr合金的抗氧化性与具有相同化学成分（也通过相同的加工路线制备并在相同条件下被氧化）的微晶合金的抗氧化性进行了比较。发现纳米晶的Fe10Cr合金的抗氧化性比微晶的FelOCr合金的抗氧化性高出一个数量级。本文还介绍了纳米晶和微晶Fe-Cr合金氧化样品的二次离子质谱分析结果，证明了在纳米晶合金中形成了更具保护性的氧化皮。

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《PRICM 7;Pacific Rim International Conference on Advanced Materials and Processing》|2011年|p.1122-1125|共4页
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Rajeev K. Gupta; B.V. Mahesh; R. K. Singh Raman; Carl C. Koch;
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中图分类工程材料一般性问题;
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oxidation; nanocrystalline fe-cr alloys; ball milling; consolidation; secondary ion mass spectrometry (sims);

机译：氧化纳米晶铁铬合金;球磨;合并;二次离子质谱（sims）;

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Processing and Excellent Oxidation Resistance of Nanocrystalline Fe-Cr Alloys

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