金属热处理 ›› 2024, Vol. 49 ›› Issue (1): 211-214.DOI: 10.13251/j.issn.0254-6051.2024.01.034

• 工艺研究 • 上一篇    下一篇

扩散退火对H13钢显微组织和成分偏析的影响

樊明强1,2, 赵英利1, 李素芳2, 梁佳3, 王超3, 徐军君3, 王建强3, 赵峥嵘1   

  1. 1. 河钢材料技术研究院, 河北 石家庄 052165;
    2. 河钢集团有限公司, 河北 石家庄 050023;
    3. 河钢集团张宣科技, 河北 宣化 075100
  • 收稿日期:2023-08-08 修回日期:2023-11-21 发布日期:2024-02-29
  • 通讯作者: 李素芳,E-mail: lisufang@hbisco.com
  • 作者简介:樊明强(1991—),男,工程师,主要研究方向为工模具钢组织性能调控与工艺,E-mail: kdfmq1991@163.com。

Effect of diffusion annealing on microstructure and component segregation of H13 steel

Fan Mingqiang1,2, Zhao Yingli1, Li Sufang2, Liang Jia3, Wang Chao3, Xu Junjun3, Wang Jianqiang3, Zhao Zhengrong1   

  1. 1. HBIS Group Technology Research Institute, Shijiazhuang Hebei 052165, China;
    2. HBIS Group, Shijiazhuang Hebei 050023, China;
    3. HBIS Group Zhangxuan Technology, Xuanhua Hebei 075100, China
  • Received:2023-08-08 Revised:2023-11-21 Published:2024-02-29

摘要: 采用OM、SEM等微观组织分析手段研究了H13钢铸态组织和扩散退火过程中显微组织和成分偏析的演变规律。结果表明,H13钢电渣锭的铸态组织为粗大马氏体+贝氏体+液析碳化物,枝晶间和晶界处分布着高熔点液析碳化物和大尺寸二次碳化物,存在严重的枝晶偏析和成分偏析。随着扩散退火温度的升高,组织中的碳化物逐渐回溶到基体中,枝晶内的碳化物溶解速度和元素扩散速度明显快于枝晶间和晶界处,会优先达到成分均匀性要求。在1240 ℃进行扩散退火时,枝晶间的大尺寸二次碳化物几乎全部回溶到基体中,晶界处的高熔点液析碳化物数量明显减少,仅残存少量未完全溶解的小颗粒液析碳化物。从节能和提高成材率方面考虑,建议H13钢较佳的扩散退火工艺为1240 ℃×10 h。

关键词: H13钢, 扩散退火, 显微组织, 成分偏析, 液析碳化物

Abstract: Microstructure of as-cast H13 steel and microstructure evolution and component segregation during diffusion annealing were studied by means of OM and SEM. The results show that the as-cast microstructure of the electroslag remelt H13 steel is thick martensite+bainite+liquid-dissected carbides. High melting point liquid-dissected carbides and large size secondary carbides are distributed between dendrites and grain boundaries, and there are serious dendritic segregation and component segregation. With the increase of diffusion annealing temperature, the carbide gradually dissolve into the matrix, and the dissolution rate of carbides and the diffusion rate of elements in the dendrites are obviously faster than those at the interdendritic region and grain boundaries, which will preferentially meet the requirements of composition uniformity. When the diffusion annealing is 1240 ℃, the large size secondary carbides between dendrites are almost all dissolved back into the matrix, and the amount of high melting point liquid-dissected carbides at the grain boundary is obviously reduced, and only a few small particles of liquid-dissected carbides are left. For considering the energy saving and the yield improving, it is suggested that diffusion annealing at 1240 ℃ for 10 h is better process for the H13 steel.

Key words: H13 steel, diffusion annealing, microstructure, component segregation, liquid-dissected carbides

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