Strengthening and Toughening Process Method of 30CrMnSiA Thin-Wall Cup-Shaped Parts
Received date: 2022-02-23
Online published: 2022-04-23
Supported by
the National Natural Science Foundation of China(52175316);the Natural Science Foundation of Basic and Applied Basic Research Fund of Guangdong Province(2021A1515011074)
30CrMnSiA thin-wall cup-shaped part is a key basic component widely used in the flexible gear of harmonic reducer. Aiming at the problem of the low bearing capacity and short service life of harmonic reducer caused by insufficient strength and toughness of 30CrMnSiA thin-wall cup-shaped parts manufactured by traditional turning method, this paper proposed a plastic deformation-heat treatment process which consists of spinning, quenching, tempering, spinning and aging to manufacture 30CrMnSiA thin-wall cup-shaped parts with less or no cutting and excellent mechanical properties. Through the tensile and impact experiment, by comparing the mechanical properties of each process part, the microorganization of each process part was analyzed. The results show that tempered sorbite microstructure with high strength can be obtained by spinning-quenching and tempering process, but the plasticity was reduced significantly. The fibrous microstructure of spun parts can be further refined by aging heat treatment, and the fine carbides precipitated and uniformly distributed on the ferrite matrix. High strength and good plasticity can be obtained by subsequent aging at 300 ℃ for 6 h. As compared with parts obtained by turning forming after quenching and tempering heat treatment, the yield strength and tensile strength of 30CrMnSiA thin-wall cup-shaped parts manufactured by plastic deformation and heat treatment are improved by 93.65% and 47.88%, respectively. The hardness is increased by 26.87%, and the impact strength is increased by 12.01%. Meanwhile, the elongation and percentage reduction of area are 11.60% and 24.64%, respectively. The thin-wall cup-shaped parts with high strength and toughness can be manufactured by the plastic deformation and heat treatment process of spinning-quenching-tempering-spinning-aging, which provides a new method for manufacturing the thin-wall cup-shaped parts with high-strength and toughness.
Qinxiang XIA , Zhangxiong XIE , Can CHEN , Gangfeng XIAO . Strengthening and Toughening Process Method of 30CrMnSiA Thin-Wall Cup-Shaped Parts[J]. Journal of South China University of Technology(Natural Science), 2023 , 51(1) : 1 -7 . DOI: 10.12141/j.issn.1000-565X.220075
| 1 | RITCHIE R O .The conflicts between strength and toughness[J].Nature Materials,2011,10(11):817-822. |
| 2 | 董瀚,廉心桐,胡春东,等 .钢的高性能化理论与技术进展[J].金属学报,2020,56(4):558-582. |
| 2 | DONG Han, LIAN Xintong, HU Chundong,et al .High performance steels:the scenario of theory and technology[J].Acta Metallurgica Sinica,2020,56(4):558-582. |
| 3 | DING H, LIU S, ZHANG H,et al .Improving impact toughness of a high chromium cast iron regarding joint additive of nitrogen and titanium[J].Materials & Design,2016,90:958-968. |
| 4 | 吴璐,董万鹏,龚红英,等 .铝合金的形变热处理研究进展[J].热加工工艺,2014,43(4):27-31. |
| 4 | WU Lu, DONG Wanpeng, GONG Hongying,et al .Research and progress of thermomechanical treatment of Al alloy[J].Hot Working Technology,2014,43(4):27-31. |
| 5 | MORADI M, NILI-AHMADABADI M, HEIDARIAN B .Improvement of mechanical properties of Al (A356) cast alloy processed by ECAP with different heat treatments[J].International Journal of Material Forming,2009,2(1):85-88. |
| 6 | 邹创,陶涛,梅雪松,等 .机器人关节短筒谐波减速器接触计算与分析[J].西安交通大学学报,2013,47(5):82-87. |
| 6 | ZOU Chuang, TAO Tao, MEI Xuesong,et al .Contact analysis for short harmonic reducer in robotic joints[J].Journal of Xi’an Jiaotong University,2013,47(5):82-87. |
| 7 | 张朝磊,魏旸,方文,等 .谐波减速器特殊钢材质柔轮的组织和力学性能分析[J].材料导报,2018,32(16):2842-2846. |
| 7 | ZHANG Chaolei, WEI Yang, FANG Wen,et al .Microstructure and mechanical properties analysis of the special steel flexspline for harmonic reduction gear[J].Materials Reports,2018,32(16):2842-2846. |
| 8 | 王成和,刘克璋,周路 .旋压技术[M].福州:福建科学技术出版社,2016. |
| 9 | XIA Q, XIAO G, LONG H,et al .A review of process advancement of novel metal spinning[J].International Journal of Machine Tools & Manufacture,2014,85:100-121. |
| 10 | 王静,韩妙玲,邓琳蔚,等 .真空淬火炉的检测及应用[J].金属热处理,2019,44(5):228-231. |
| 10 | WANG Jing, HAN Miaoling, DENG Linwei,et al .Detection and application of vacuum quenching furnace[J].Heat Treatment of Metals,2019,44(5):228-231. |
| 11 | 邹丽娜 .高强高韧Ti-Al-Fe-V-(Mo,Cr)系合金显微组织与力学性能研究[D].北京:北京有色金属研究总院,2014. |
| 12 | 夏琴香 .特种旋压成形技术[M].北京:科学出版社,2017:81-85. |
| 13 | 合金结构钢: [S]. |
| 14 | 吴子恺,陈伟,周海铭,等 .回火温度对30CrMnSiA钢力学性能的影响[J].金属热处理,2019,44(2):163-167. |
| 14 | WU Zikai, CHEN Wei, ZHOU Haiming,et al .Effect of tempering temperature on mechanical properties of 30CrMnSiA steel[J].Heat Treatment of Metals,2019,44(2):163-167. |
| 15 | 孙婷婷,唐荻,江海涛,等 .过时效温度对冷轧双相钢组织性能的影响[J].热加工工艺,2009,38(20):130-132. |
| 15 | SUN Tingting, TANG Di, JIANG Haitao,et al .Effect of over-aging temperature on microstructure and properties of cold-rolling dual phase steel[J].Hot Working Technology,2009,38(20):130-132. |
| 16 | 张福豹 .塑性变形和热处理协同对6013型铝合金组织性能的调控及机理研究[D].镇江:江苏大学,2017. |
| 17 | TAO Z, YANG H, LI H,et al .Quasi-static tensile behavior of large-diameter thin-walled Ti-6Al-4V tubes at elevated temperature[J].Chinese Journal of Aeronautics,2016,29(2):542-553. |
| 18 | 寿先涛,郑必举,王毛球,等 .F700高强钢的力学性能[J].金属热处理,2018,43(11):208-211. |
| 18 | SHOU Xiantao, ZHENG Biju, WANG Maoqiu,et al .Mechanical properties of F700 high-strength steel[J].Heat Treatment of Metals,2018,43(11):208-211. |
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