12%Cr耐热合金钢X20CrMoV12.1是热电厂主蒸汽管线等重要部件用材。该质材的主蒸汽管道经23年长期高温负荷运行后,性能明显退化,常温下呈脆性。实验显示服役后材料的脆化是可逆的,属于逆回火脆现象。运用TEM和AES等对显微组织结构的研究显示,有害元素P在晶界的偏聚和晶界碳化物的粗化是材料性能退化和致脆的原因。
Abstract
12%Cr heat-resistant alloy steel of X20CrMoV12.1 is used as main steam pipe and other critical components in power plants. The properties of the main steam pipe degraded greatly after service at elevated temperature for 23 years and had a tendency to embrittle in room temperature. Further investigation shows this phenomenon is typical reverse temper embrittlement (RTE) effect. The microstructure studies indicate that the segregation of harmful element P and the coarsened carbides at prior austenite boundaries result in the degradation of properties and embrittlement.
关键词
12%Cr耐热合金钢 /
热损伤 /
逆回火脆 /
碳化物粗化
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Key words
12%Cr heat-resistant alloy steel /
heat damage /
reverse temper embrittlement /
carbide coarsening
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中图分类号:
TG132
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参考文献
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