650℃长期时效过程中Super304H耐热不锈钢组织的演变

Microstructural evolution of heat-resistant steel Super304H during 650 ℃ long term aging

  • 摘要: 对600℃超超临界电站锅炉过热器/再热器用Super304H耐热不锈钢的长期组织稳定性进行了研究.将Super304H管材经650℃、104h长期时效后,用扫描电镜、透射电镜和原子层析技术综合分析了Super304H中析出相的行为,包括相析出初期的原子聚集,析出相的本质、成分、形态以及尺寸大小和分布.结果表明,Super304H中主要析出相为富Cu相、MX和M23C6.随时效时间的延长,M23C6颗粒很快粗化,特别是在晶界处逐渐由颗粒状长大成连续状,而减弱了应有的强化效应;晶内弥散析出,尺寸为150nm左右的MX相数量明显增多,特别是尺寸细小(3~35nm)的富铜相,均匀弥散分布.说明Su-per304H中起主要强化作用的是富铜相,其次是MX相和一部分M23C6碳化物.

     

    Abstract: The long-term structure stability of heat-resistant steel Super304H, which is used as superheater/reheater tubes for ultra-supercritical power plant boilers, was studied by means of SEM, TEM and 3DAP (three-dimensional atom probe). The results show that Cu-rich phase, MX and M23C6 are the main precipitates in Super304H steel. With increasing aging time, M23C6 carbide coarsens quickly and its morphology changes from separate particles to continuous precipitating at grain boundaries. The number of MX increases with increasing aging time and its average size is about 150 nm. Cu-rich phase dispersive particles precipitate in grains and their size keeps in the range of 3 to 35 nm. It is indicated that most of the strengthening effect in Super304H attributes to Cu-rich phase, with the complement of MX and partially M23C6 carbide.

     

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