%0 Journal Article
%T 时效处理对2205 DSS组织及力学性能的影响
%A 吴天海
%A 刘春明
%A 姜周华
%A 范光伟
%J 东北大学学报（自然科学版）
%D 2016
%R 10.12068/j.issn.1005-3026.2016.09.021
%X 摘要 首先对2205 DSS进行了1100℃固溶处理，随后将试样分别在650，700，750，800，850和900℃下进行不同时间的时效处理，探究2205 DSS中σ相的析出规律及其对材料组织和力学性能的影响.研究结果表明:2205 DSS中σ相的析出分为有碳化物伴随和无碳化物伴随两种方式，前者发生在α-γ相界上，后者则主要发生在α相的晶内和晶界；2205 DSS在850℃时效时σ相的析出行为最严重；在析出σ相后，合金元素Cr和Mo在各相中会发生不同程度的偏聚；2205 DSS中析出少量的σ相对材料的塑性影响不大，但会显著降低材料的冲击韧性，而σ相的大量析出则会使两者均发生严重恶化；σ相的析出对材料的屈服强度影响不大，对材料的抗拉强度有略微的提高作用.</br>Abstract：2205 DSS(duplex stainless steel)were solution treated at 1100℃ followed by aging at 650~900℃ for different time to study the precipitation of σ phase and its influence on microstructures and properties. The results showed that σ phase precipitates in two different ways， one is the precipitation at phase boundaries accompanied by carbides; the other is the precipitation in the ferrite grains or at the ferrite grain boundaries without accompanied carbides. The precipitation of σ phase is the most serious when aged at 850℃. After the precipitation， the segregation of alloying elements Cr and Mo in different phases occurs in different degrees. Small amounts of σ phase have little effect on ductility， but reduce impact toughness significantly. Large amounts of σ phase can reduce both ductility and impact toughness severely. The precipitation of σ phase has little effect on yield strength， and can improve tensile strength slightly.
%K 2205双相不锈钢
%K 时效
%K σ相
%K 显微组织
%K 力学性能&lt
%K /br&gt
%K Key words： 2205 DSS(duplex stainless steel) ageing σ phase microstructure mechanical property
%U http://xuebao.neu.edu.cn/natural/CN/abstract/abstract9977.shtml