H13热作模具钢中液析碳化物的研究进展

Recent progress on primary carbides in AISI H13 hot work mold steel

  • 摘要: 从凝固偏析理论、凝固方法、生产工艺及合金设计等方面,综述了H13钢中液析碳化物的研究进展,阐明了H13钢的生产工艺对液析碳化物析出的影响.H13钢中的液析碳化物是由于凝固偏析而在枝晶间区域产生的,根据形貌的不同可分为多边形、长条形、块状及共晶的层片状;根据结构不同可分为MC型、M6C型、M7C3或M23C6型;根据成分的不同可分为富Mo型、富V型和富Ti、Nb型.H13钢在服役过程中,受外力作用时会在液析碳化物处形成裂纹,严重降低材料的韧性,控制液析碳化物的数量和尺寸可以减小其危害.工业生产条件下控制H13钢中液析碳化物的主要手段有凝固控制、变质处理、铸锭高温扩散和合金成分优化等.其中凝固过程控制及变质处理可以控制液析碳化物的尺寸、数量及在凝固过程中的生成时机,但无法完全避免液析碳化物的产生.对H13钢进行合金成分优化可以改变液析碳化物的稳定性.铸锭高温扩散是控制H13钢中液析碳化物的最主要手段,但工业生产中采用的具体加热温度和保温时间有待进一步研究.

     

    Abstract: This paper reviewed the recent development of primary carbides in H13 steel from the aspects of solidification segregation theory, solidification method, production process, and alloy design. The relationship between the production process of H13 steel and the characteristics of primary carbides was clarified. During the solidification of H13 steel, primary carbides can be easily generated by dendritic segregation. The primary carbides in H13 steel can be divided into polygonal, stripy, blocky, and eutectic structures according to the different shapes and can be divided into MC, M2C, M7C3, and M23C6 according to the different structures. The primary carbides can also be classified as Mo-rich, V-rich, and Ti/Nb-rich carbides according to the different compositions. Primary carbides are detrimental to the performance of H13 steel because cracks can easily form around primary carbides during service of the materials. The widely used methods of controlling the primary carbides in H13 steel under industrial production conditions, including solidification control, modification treatment, high-temperature diffusion of the ingot, and alloy composition optimization, were introduced. Modification treatment and solidification control are able to control the size and quantity of primary carbides but are unable to avoid the precipitation of primary carbides entirely. The stability of primary carbides can be relieved by composition optimization. High-temperature homogenization treatment of ingot is the most important means of controlling primary carbides in H13 steel. However, the heating temperature and holding time need further investigation.

     

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