以核电汽轮机缸体用G18CrMo2-6耐热钢为研究对象,分析了显微组织、第二相类型、形貌、尺寸和分布随回火温度的变化及其对冲击韧性的影响.结果表明,G18CrMo2-6钢正火经不同冷速冷却后得到不同的基体组织,经680℃回火后,冲击韧性均远高于指标要求,因此基体组织差异不是导致冲击韧性急剧恶化的决定性因素.经炉冷正火后在560~710℃区间回火,显微组织均为铁素体+回火贝氏体,随回火温度上升,室温冲击韧性增加.经560和600℃回火后,块状马氏体/奥氏体(M/A)岛、条状颗粒不均匀分布于贝氏体铁素体基体上,平均冲击韧性分别为17和29 J.710℃回火后块状M/A岛分解,条状颗粒转变为细小的颗粒状呈弥散分布,冲击韧性达到峰值93 J.除了基体组织的软化效应外,第二相的类型、形貌、尺寸和分布能够明显改变诱发裂纹萌生的临界断裂应力,是影响G 18CrMo2-6钢冲击性能的一个关键因素.
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