Transactions of Materials and Heat Treatment

Title：Study on mixed crystal defect characteristics and heat treatment for 17CrNiMo6 steel warm forging planetary gear

Authors： Wang Liyin1 Zuo Biao2 Sun Wanli3 4 Dai Keming1 Xu Baoyu1 Zhang Chaolei3 4

Unit： (1. Technology Center Zenith Steel Group Co. Ltd. Changzhou 213011 China 2. Jiangsu Airship Co. Ltd. Taizhou 225300 China 3. Institute for Carbon Neutrality University of Science and Technology Beijing Beijing 100083 China 4. Liaoning Academy of Materials Shenyang 110179 China)

KeyWords： 17CrNiMo6 steel gear mixed crystal defects heat treatment double quenching

ClassificationCode：TG142.1

year,vol(issue):pagenumber：2025,50(4):229-235

Abstract：

Abstract: Mixed crystal defects in gear have a significant impact on the performance and service life of gear. Therefore, for the problem of macroscopic mixed crystal phenomenon occurred in 17CrNiMo6 steel warm forging planetary gear after carburizing and quenching, the mixed crystal samples by three kinds of heat treatment processes were tested to explore the method of eliminating mixed crystal defects. The results show that the fine grain area corresponds to the area with large strain during the forging process, and the strain gradient and overall strain affect the distribution of mixed crystal grains. After isothermal normalizing treatment, the microstructure is a uniformly distributed ferrite+pearlite, which improves the uneven strain and microstructure introduced by forging. After high-temperature austenitization treatment, the grains are refined compared with the original state, but there is still some mixed crystal phenomenon, the average grain size reaches 13.5 μm, and the uneven factor is 2.79. Double quenching treatment can eliminate mixed crystal defects quickly and efficiently, the average grain size reaches 10.6 μm, and the uneven factor is 2.54. The research results show that the appearance of macroscopic mixed crystal defects is related to uneven strain, and the phenomenon of mixed crystal inheritance can be eliminated by heat treatment.

Funds：

作者简介：王礼银（1974-），男，硕士，高级工程师

Reference：

［1］闫梦洁.浅谈中国汽车用齿轮钢的质量要求与水平
［J］.现代交通与冶金材料，2007(1)：7-16.

Yan M J. A brief discussion on the quality requirements and level of gear steel for chinese automobiles
［J］. Modern Transportation and Metallurgical Materials, 2007(1): 7-16.

［2］代智鹏，杨健，张庆松，等.汽车用齿轮钢奥氏体晶粒长大与第二相粒子控制技术研究进展
［J］.工程科学学报，2023，45(11)：1878-1895.

Dai Z P, Yang J, Zhang Q S, et al. Research progress on austenite grain growth and second-phase particle control technology in automotive gear steel
［J］. Chinese Journal of Engineering, 2023, 45(11): 1878-1895.

［3］陈保山，逯云杰.基于Deform-3D的齿轮坯精锻工艺分析与试验验证
［J］.锻压技术，2023，48(12)：18-24.

Chen B S, Lu Y J. Analysis and experimental verification of gear billet precision forging process based on Deform-3D
［J］. Forging & Stamping Technology, 2023, 48(12): 18-24.

［4］白瑞娟，万长杰，董战利，等.温锻和等温正火对20CrMnTiH3齿轮钢渗碳淬火后奥氏体晶粒度的影响
［J］.特殊钢，2016，37(3)：61-63.

Bai R J, Wan C J, Dong Z L, et al. Effect of warm-forging and

isothermal normalizing on austenite grain size of carburized and quenched gear steel 20CrMnTiH3
［J］. Special Steel, 2016, 37(3): 61-63.

［5］郝彦英，孙万利，张朝磊，等.钢材混晶组织缺陷的形成机理及控制策略
［J］.锻压技术，2023，48(7)：1-6.

Hao Y Y, Sun W L, Zhang C L, et al. Formation mechanism and control strategy on mixed grain structure defect for steel
［J］. Forging & Stamping Technology, 2023, 48(7): 1-6.

［6］朱华.渗碳齿轮用钢18CrMnB在不同热处理工艺条件下混晶形成原因及分析
［J］.特钢技术，2017，23(2)：40-42，46.

Zhu H. Analysis of reasons for formation of mixed grain in carburized gear steel 18CrMnB with different heat treatment processes
［J］. Special Steel Technology, 2017, 23(2): 40-42, 46.

［7］徐乐钱，左锦中，袁静，等.20CrH温锻内星齿轮混晶原因分析及工艺改进
［J］.特殊钢，2023，44(2)：21-24.

Xu L Q, Zuo J Z, Yuan J, et al. Analysis and process improvement of mixed crystal in warm forged 20CrH inner star wheel
［J］. Special Steel, 2023, 44(2): 21-24.

［8］孔祥伟，王科峰，林再勇，等.冷变形对20CrMnTi渗碳晶粒混晶的影响及工艺改进
［J］.特钢技术，2022，28(1)：24-26.

Kong X W, Wang K F, Lin Z Y, et al. Effect of cold deformation on the mixed grain of 20CrMnTi carburized grain and process improvement
［J］. Special Steel Technology, 2022, 28(1): 24-26.

［9］Yuta I, Takako Y, Kunikazu T, et al. Effect of annealing before cold forging on the behavior of abnormal grain growth during carburizing
［J］. ISIJ International, 2017, 57(12): 2220-2228.

［10］刘国彬，陈紫微，顾胡维，等.变形处理对Zn-0.75Cu-0.15Ti合金组织和力学性能的影响
［J］.铜业工程,2023(1):28-35.

Liu G B, Chen Z W, Gu H W, et al. Microstructure and mechanical properties of Zn-0.75Cu-0.15Ti alloy with different deformation treatments
［J］. Copper Engineering, 2023(1): 28-35.

［11］苏梁，弓硕，王福明.预热处理工艺对SCr420H齿轮钢高温渗碳奥氏体晶粒长大行为的影响
［J］.特殊钢，2023，44(3)：74-83.

Su L, Gong S, Wang F M. Effect of preheat treatment process on austenite grain growth behavior in gear steel SCr420H for high temperature carburization
［J］. Special Steel, 2023, 44(3): 74-83.

［12］杨洪波，赵贺然，孙佳通，等.钛含量对Ti-Mo微合金钢组织及性能的影响
［J］.稀有金属，2024，48(11)：1543-1551.

Yang H B，Zhao H R，Sun J T，et al. Microstructure and properties of Ti-Mo microalloyed steel with different Ti contents
［J］. Chinese Journal of Rare Metals, 2024,48(11): 1543-1551.

［13］刘阳，亓海全，韩向楠，等.锻造温度与正火制度对SCr415H钢混晶缺陷和硬度的影响
［J］.金属热处理，2023，48(8)：80-86.

Liu Y, Qi H Q, Han X N, et al. Effects of forging temperature and normalizing scheme on mixed crystal defects and hardness of SCr415H steel
［J］. Heat Treatment of metals, 2023, 48(8): 80-86.

［14］孙后金，张永安，张三平.22CrMoH齿轮钢奥氏体晶粒度影响因素及混晶原因分析
［J］.山东冶金，2019，41(6)：29-31.

Sun H J, Zhang Y A, Zhang S P. Influencing factors of austenite grain size and analysis on mixed crystal of 22CrMoH gear steel
［J］. Shandong Metallurgy, 2019, 41(6): 29-31.

［15］GB/T 37683—2019，大型齿轮、齿圈锻件技术条件
［S］.

GB/T 37683—2019, Large gear and girth gear forgings—Technical specification
［S］.

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