P92耐热钢接头组织与冲击性能

Research on microstructure and anti-impact performance of P92 heat-resistant steel joint

P92铁素体耐热钢因其优异的高温综合性能而作为超超临界发电机组用钢.采用金相显微镜﹑显微硬度计和扫描电子显微镜等分析方法,研究了TIG自熔焊后760℃回火不同保温时间对P92钢接头组织、显微硬度及冲击性能的影响,从显微组织和断口形貌角度对性能的变化进行了分析.结果表明:P92钢焊态下焊缝区平均显微硬度为400HV_(0.5),冲击韧性值为20J.经回火热处理,焊缝区显微硬度显著降低,冲击韧性提高,接头中δ-铁素体体积分数显著减少.在760℃回火保温7h后,焊缝区平均硬度下降到234HV_(0.5),冲击韧性值增加到86J.随回火时间的延长,断口形貌从韧/脆混合断裂向韧性断裂过渡.

P92ferrite heat-resistant steel has been taken as raw stuff for ultra-supercritical(USC)powergenerating set because of its excellent high-temperature performance.The effect of heat-proof time after TIG self-fluxing welding of P92 steel joint with tempering at 760 ℃ on its microstructure,microhardness and anti-impact performance was investigated by using relevant analysis method such as metallographic microscope,scanning electron microscope,and microhardness tester.The performance change was analyzed according to the microstructure and fracture morphology.The result showed that the average microhardness of P92 steel weld zone in a welding state would be 400HV_(0.5)and impact toughness would be 20 J.After tempering treatment,the microhardness of weld zone would reduce significantly,impact toughness would increase,and the content ofδ-ferrite within the joint would reduce significantly.The average microhardness of weld zone would be decreased to 234HV_(0.5)and impact toughness would be increased to 86 Jafter tempering at 760℃for 7h.With extending the heat-proof time of tempering,the fracture morphology would transform from ductile/brittle mixed fracture into ductile fracture.