对H13钢试样进行了退火试验,对退火前后试样进行了硬度测试及扫描电镜和能谱分析。分析了H13钢热轧材硬度不均匀性的形成原因。结果表明,低倍"黑斑"区域硬度平均值为91.43HRB,比正常区域高7.53%;"黑斑"区域主要由"白斑"和"黑色质点"组成,"白斑"化学成分主要是铁,"黑色质点"主要成分为合金碳化物;H13钢试样经退火后,原"黑斑"区域硬度明显降低,从190.2HB下降到168.26HB,退火后"黑色质点"尺寸变小,其碳质量分数大幅度降低,从80%下降到15%;H13钢热轧材硬度不均匀主要是由于钢液凝固过程中成分不均匀所致。
Annealing experiment was performed, and the samples before and after annealed were studied by SEM (Scanning Electron Microscope) and EDS (Energy Disperse spectroscopy). The hardness of samples was tested. The reasons causing the hardness inhomogeneity in hot-rolled product of H13 steel were analyzed. The results show that the hardness of freckle area is 91.43 HRB, 7.53% higher than the hardness of normal area. The freckle area is mainly comprised of white spot and black particle, the main chemical composition of white spot is iron and the black particle is alloy carbide. After the H13 samples were annealed, the hardness of freckle area decreased obviously, from 190.2 HB to 168.26 HB. The size of black particle is smaller, and its carbon percentage content decreased sig- nificantly, from 80 % to 15%. The hardness inhomogeneity in hot-roiled product of H13 steel is mainly due to non-uniform composition of molten steel during the casting solidification process.
参考文献
| [1] | Unterweiser P M;Boyer H E;Kubbs J J.Heat Treater's Guide Standard Practices and Procedures for Steel[M].Ohio USA:ASM Metals Park,1982 |
| [2] | 潘晓华,朱祖昌.H13热作模具钢的化学成分及其改进和发展的研究[J].模具制造,2006(04):78-85. |
| [3] | 宋雯雯,闵永安,吴晓春.H13钢中的碳化物分析及其演变规律研究[J].材料热处理学报,2009(05):122-126. |
| [4] | 任慧平;李文学;刘宗昌 等.碳化物对H13钢退火软化的影响[J].钢铁研究学报,1997,9(05):66. |
| [5] | Hua Xinbin;Li Lin;Wua Xiaochun et al.Coarsening Be- havior of M23C6 Carbides After Ageing or Thermal Fatigue in AISI H13 Steel With Niobium[J].International Journal of Fatigue,2006,28:175. |
| [6] | Mebarki N;Lamesle P;Delagnes D.Relationship Be- tween Microstructure and Mechanical Properties of 5% Cr Hot Work Tool Steel[A].Karlstad:Karlstad University,2002 |
| [7] | N. TSUJII;G. ABE;K. FUKAURA .Effect of testing atmosphere on low cycle fatigue of hot work tool steel at elevated temperature[J].ISIJ International,1995(7):920-926. |
| [8] | 任慧平.H13钢软化退火工艺的研究[J].热加工工艺,1996(06):36. |
| [9] | Gehricke U Reichel.Consideration of International Specifica tions Concerning Hot-Work Tool Steels[A].Leoben:University of Leo- ben,1999:569. |
| [10] | 仲增墉,庄景云.变形高温合金生产工艺中几个重要问题的研究和进展[J].钢铁研究学报,2003(z1):1-9. |
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