Optimization on Heat Treatment Process of 45CrMnSi Steel by Orthogonal Test

被引:0
|
作者
Tang, Guozhang [1 ]
Li, Yungang [1 ]
Yang, He [1 ]
Zhang, Yuzhu [1 ]
Yang, Haili [1 ]
机构
[1] Hebei United Univ, Hebei Key Lab Modern Met Technol, Coll Met & Energy, Tangshan 063009, Peoples R China
来源
BIOTECHNOLOGY, CHEMICAL AND MATERIALS ENGINEERING, PTS 1-3 | 2012年 / 393-395卷
关键词
Heat treatment process; Hardness; Impact toughness; Orthogonal test; WEAR BEHAVIOR; SLIDING WEAR; BAINITE;
D O I
10.4028/www.scientific.net/AMR.393-395.217
中图分类号
Q81 [生物工程学(生物技术)]; Q93 [微生物学];
学科分类号
071005 ; 0836 ; 090102 ; 100705 ;
摘要
The effect of quenching temperature, tempering temperature and tempering time on hardness of 45CrMnSi steel was studied by orthogonal test. It was found that the order of significant factors for the hardness was quenching temperature > tempering temperature > tempering time. Based on the results of the range analysis, the optimum process parameters for the maximum hardness were that the quenching temperature was 900 degrees C, the tempering temperature was 150 degrees C, and the tempering time was 180 min. Under the optimum process conditions, the hardness reached to HRC52 with impact toughness of 15 J/cm(2). The hardness and toughness met the need of the comprehensive mechanical property and proper toughness of 45CrMnSi.
引用
收藏
页码:217 / 221
页数:5
相关论文
共 50 条
  • [21] Optimization of Screw Rolling Ball Process Parameters Based on Orthogonal Test
    Ren, Xiaozhong
    Liu, Yongqing
    Jin, Yurong
    ADVANCES IN ENGINEERING DESIGN AND OPTIMIZATION III, PTS 1 AND 2, 2012, 201-202 : 1190 - 1193
  • [22] Optimization of Ultrasonic Extraction Process of Oenanthe benghalensis Polysaccharide by Orthogonal Test
    Liufu LU
    Aiyue LUO
    Bingyang LIN
    Zhenlian XIE
    Guangyu GAN
    Xiuzhen HUANG
    Zhidong LEI
    Shimei CHEN
    Suoyi HUANG
    Medicinal Plant, 2018, (05) : 23 - 26
  • [23] Heat treatment process of steel for the bulletproof helmet
    Wan, Rungen
    Zhou, Xiying
    Luo, Junming
    Hangkong Zhizao Jishu/Aeronautical Manufacturing Technology, 2002, (05):
  • [24] Effect of Heat Treatment on Delayed Fracture Resistance of High Strength Steel 30CrMnSi2NiNb
    WANG Mao-qiu
    DONG Han
    HUI Wei-jun
    CHEN Si-lian
    WENG Yu-qing
    Journal of Iron and Steel Research(International), 2003, 10 (01) : 44 - 48
  • [25] Microstructural evolution in 35CrMnSi steel during multi-cyclic quenching and partitioning heat treatment
    Yang Li
    GuiYong Xiao
    LuBin Chen
    YuPeng Lu
    Science China Technological Sciences, 2013, 56 : 2581 - 2585
  • [26] Microstructural evolution in 35CrMnSi steel during multi-cyclic quenching and partitioning heat treatment
    LI Yang
    XIAO GuiYong
    CHEN LuBin
    LU YuPeng
    Science China(Technological Sciences), 2013, (10) : 2581 - 2585
  • [27] CHARACTERIZATION OF NANOBAINITIC STRUCTURE OBTAINED IN 100CrMnSi6-4 STEEL AFTER INDUSTRIAL HEAT TREATMENT
    Dworecka, J.
    Jezierska, E.
    Rozniatowski, K.
    Swiatnicki, W.
    ARCHIVES OF METALLURGY AND MATERIALS, 2014, 59 (04) : 1637 - 1640
  • [28] Effect of heat treatment on delayed fracture resistance of high strength steel 30CrMnSi2NiNb
    Wang, MQ
    Dong, H
    Hui, WJ
    Chen, SL
    Weng, YQ
    JOURNAL OF IRON AND STEEL RESEARCH INTERNATIONAL, 2003, 10 (01) : 44 - 48
  • [29] Microstructural evolution in 35CrMnSi steel during multi-cyclic quenching and partitioning heat treatment
    Li Yang
    Xiao GuiYong
    Chen LuBin
    Lu YuPeng
    SCIENCE CHINA-TECHNOLOGICAL SCIENCES, 2013, 56 (10) : 2581 - 2585
  • [30] Microstructural evolution in 35CrMnSi steel during multi-cyclic quenching and partitioning heat treatment
    LI Yang
    XIAO GuiYong
    CHEN LuBin
    LU YuPeng
    Science China(Technological Sciences), 2013, 56 (10) : 2581 - 2585
12345