首页>
外国专利>
COMPOSITION DESIGN AND PROCESSING METHODS OF HIGH STRENGTH, HIGH DUCTILITY, AND HIGH CORROSION RESISTANCE FeMnAlC ALLOYS
COMPOSITION DESIGN AND PROCESSING METHODS OF HIGH STRENGTH, HIGH DUCTILITY, AND HIGH CORROSION RESISTANCE FeMnAlC ALLOYS
展开▼
机译:高强度,高延性和高耐蚀性FeMnAlC合金的成分设计与加工方法
展开▼
页面导航
摘要
著录项
相似文献
摘要
A novel FeMnAlC alloy, comprising 23˜34 wt. % Mn, 6˜12 wt. % Al, and 1.4˜2.2 wt. % C with the balance being Fe, is disclosed. The as-quenched alloy contains an extremely high density of nano-sized (Fe,Mn)3AlCx carbides (κ′-carbides) formed within austenite matrix by spinodal decomposition during quenching. With almost equivalent elongation, the yield strength of the present alloys after aging is about 30% higher than that of the optimally aged FeMnAlC (C≦1.3 wt. %) alloy systems disclosed in prior arts. Moreover, the as-quenched alloy is directly nitrided at 450˜550° C., the resultant surface microhardness and corrosion resistance in 3.5% NaCl solution are far superior to those obtained previously for the optimally nitrided commercial alloy steels and stainless steels, presumably due to the formation of a nitrided layer consisting predominantly of AlN.
展开▼
机译:一种新颖的FeMnAlC合金,其含量为23〜34重量%。 Mn为6〜12重量%。 Al的含量为1.4〜2.2wt。%。公开了%C,余量为Fe。淬火后的合金包含通过旋节线分解在奥氏体基质中形成的极高密度的纳米级(Fe,Mn) 3 AlC x x碳化物(κ′-碳化物)在淬火过程中。在几乎相等的伸长率下,本发明合金的时效后的屈服强度比现有技术中公开的最佳时效的FeMnAlC(C≤1.3重量%)合金体系的屈服强度高约30%。而且,将淬火后的合金在450〜550℃下直接氮化,在3.5%NaCl溶液中所得的表面显微硬度和耐腐蚀性远优于先前对于最佳氮化的商品合金钢和不锈钢所获得的那些。形成主要由AlN组成的氮化层。
展开▼
