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Abstract The research status of 40CrNiMo at home and abroad was reviewed in detail from five aspects of conventional heat treatment andproperties,deformation heat treatment,surface heat treatment,precipitation and alloying optimization,and other aspects. The research and application of new technology(surface chemical heat treatment,surface laser quenching,chrome plating shot peening,alloy optimization and precipitation phase)on the production of 40CrNiMo steel and the research of heat treatment(subcritical quenching,cryogenic treatment) on its performance mining were mainly reviewed. In addition,the influence of turning parameters on fatigue strength and surface roughness of 40CrNiMo steel and its fracture characteristics under stress corrosion condition were briefly summarized. The short comings of current research of 40CrNiMo steel and its potential future directions were pointed out.
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Received: 28 August 2017
Published: 11 May 2018
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| [1] |
Dimitry V. Bubnoff, Mariana M. O. Carvalho, Thiago R.M. Louren?o, Jose Adilson de Castro. Kinetic study on martensite formation in steels 1045 and 4340 under variable cooling rates[J]. Materials Science Forum,2016,869(1):550-555
|
| [1] |
Dimitry V. Bubnoff, Mariana M. O. Carvalho, Thiago R.M. Louren?o, Jose Adilson de Castro. Kinetic study on martensite formation in steels 1045 and 4340 under variable cooling rates[J]. Materials Science Forum,2016,869(1):550-555
|
| [2] |
N. Saeidi, A. Ekrami.Comparison of mechanical properties of martensite/ferrite and bainite/ferrite dual phase 4340 steels[J]. Materials Science & Engineering A, 2009?,?523?(1)?:125-129
|
| [2] |
N. Saeidi, A. Ekrami.Comparison of mechanical properties of martensite/ferrite and bainite/ferrite dual phase 4340 steels[J]. Materials Science & Engineering A, 2009?,?523?(1)?:125-129
|
| [3] |
M. R. AKBARPOUR, F. NEMATZADEH, S. E. HASEMI AMIRI, etal. Effect of long duration intercritical heat treatment on the mechanical properties of AISI 4340 steel[J]. Materials Science-Poland, 2010, 28(2):401-402
|
| [3] |
M. R. AKBARPOUR, F. NEMATZADEH, S. E. HASEMI AMIRI, etal. Effect of long duration intercritical heat treatment on the mechanical properties of AISI 4340 steel[J]. Materials Science-Poland, 2010, 28(2):401-402
|
| [4] |
孙兴德.40CrNiMo钢退火热处理工艺与性能的研究[J]. 金属制品. 2014, 40(3): 19-22
|
| [4] |
孙兴德.40CrNiMo钢退火热处理工艺与性能的研究[J]. 金属制品. 2014, 40(3): 19-22
|
| [5] |
陈国辉, 张小聪, 余荣杰. 带状偏析对40CrNiMo钢组织和性能的影响[J]. 热加工工艺,2012,41(8):16-18
|
| [5] |
陈国辉, 张小聪, 余荣杰. 带状偏析对40CrNiMo钢组织和性能的影响[J]. 热加工工艺,2012,41(8):16-18
|
| [6] |
张小岩, 王强, 陈涛, 等. 40CrNiMo钢亚温淬火强化机理的研究[J]. 热加工工艺, 2012, 41(22):218-220
|
| [6] |
张小岩, 王强, 陈涛, 等. 40CrNiMo钢亚温淬火强化机理的研究[J]. 热加工工艺, 2012, 41(22):218-220
|
| [7] |
秦征平. 40CrNiMo热处理工艺的改进[J]. 一重技术, 2009, (1期总127期):21-32
|
| [7] |
秦征平. 40CrNiMo热处理工艺的改进[J]. 一重技术, 2009, (1期总127期):21-32
|
| [8] |
冉昕. 42CrMo和40CrNiMo材料热处理性能对比[J]. 机电信息, 2016, (21期总期483): 104-105
|
| [8] |
冉昕. 42CrMo和40CrNiMo材料热处理性能对比[J]. 机电信息, 2016, (21期总期483): 104-105
|
| [9] |
马佳明, 叶俭, 王丽莲. 高铁车轴用结构钢的热处理和力学性能[J]. 热处理, 2012,27(2): 63-65
|
| [9] |
马佳明, 叶俭, 王丽莲. 高铁车轴用结构钢的热处理和力学性能[J]. 热处理, 2012,27(2): 63-65
|
| [10] |
王松林,40CrNiMo钢锻件的制造工艺,ZL:CN201210246395.4
|
| [10] |
王松林,40CrNiMo钢锻件的制造工艺,ZL:CN201210246395.4
|
| [11] |
Z. Samadi Shahreza, G. Dini,A. Taherizadeh. Improving the Microstructure, Mechanical and Magnetic Properties of AISI 4340 Steel Using the Heat Treatment Process. International Journal of ISSI, 2013, 10 (2): 18-22
|
| [11] |
Z. Samadi Shahreza, G. Dini,A. Taherizadeh. Improving the Microstructure, Mechanical and Magnetic Properties of AISI 4340 Steel Using the Heat Treatment Process. International Journal of ISSI, 2013, 10 (2): 18-22
|
| [12] |
Seyed MajidSafia. Mohammad kazem BESHARATI GIVI. Saving energy by modification of Tomita heat treatment method for AISI 4340 steel[J]. Energy Procedia, 2012, 14: 608 - 612
|
| [12] |
Seyed MajidSafia. Mohammad kazem BESHARATI GIVI. Saving energy by modification of Tomita heat treatment method for AISI 4340 steel[J]. Energy Procedia, 2012, 14: 608 - 612
|
| [13] |
S. S. Sharma, P. R. Prabhu, Gowrishankar M. C,A. V. B. Sudhakar. Mechanical Property Assessment of Austempered and Conventionally Hardened AISI 4340 Steel. Proceedings of the 2nd International Conference on Current Trends in Engineering and Management. 17-19, July 2014, Mysore, Karnataka, India.
|
| [13] |
S. S. Sharma, P. R. Prabhu, Gowrishankar M. C,A. V. B. Sudhakar. Mechanical Property Assessment of Austempered and Conventionally Hardened AISI 4340 Steel. Proceedings of the 2nd International Conference on Current Trends in Engineering and Management. 17-19, July 2014, Mysore, Karnataka, India.
|
| [14] |
S. Zhirafar, A. Rezaeian, M. Pugh. Effect of cryogenic treatment on the mechanical properties of 4340 steel[J]. Journal of Materials Processing Tech,?2007,?186?(1): 298-303
|
| [14] |
S. Zhirafar, A. Rezaeian, M. Pugh. Effect of cryogenic treatment on the mechanical properties of 4340 steel[J]. Journal of Materials Processing Tech,?2007,?186?(1): 298-303
|
| [15] |
刘琼, 芦志华, 赵文清. 40CrNiMo钢低温冲击性能研究[J]. 金属加工, 2009, 23: 35-36
|
| [15] |
刘琼, 芦志华, 赵文清. 40CrNiMo钢低温冲击性能研究[J]. 金属加工, 2009, 23: 35-36
|
| [16] |
滕志强, 刘永, 李红梅,等. 40CrNiMo合金钢锻件淬火冷却控制技术研究[J]. 金属加工, 2016, (23): 34-36
|
| [16] |
滕志强, 刘永, 李红梅,等. 40CrNiMo合金钢锻件淬火冷却控制技术研究[J]. 金属加工, 2016, (23): 34-36
|
| [17] |
张红英, 曾忠, 张鸿冰. 热变形参数对40CrNiMo钢组织的影响[J]. 热加工工艺,2010,39(4): 32-34
|
| [17] |
张红英, 曾忠, 张鸿冰. 热变形参数对40CrNiMo钢组织的影响[J]. 热加工工艺,2010,39(4): 32-34
|
| [18] |
张红英, 张鸿冰, 胡静霞. 40CrNiMo钢的热变形组织变化[J]. 上海应用技术学院学报, 2006, 6(1): 19-21
|
| [18] |
张红英, 张鸿冰, 胡静霞. 40CrNiMo钢的热变形组织变化[J]. 上海应用技术学院学报, 2006, 6(1): 19-21
|
| [19] |
逯丹, 孙丽, 颜明宏. 40CrNiMo钢氮化新工艺的研究[J]. 汽轮机技术. 2008, 50(1):1,25
|
| [19] |
逯丹, 孙丽, 颜明宏. 40CrNiMo钢氮化新工艺的研究[J]. 汽轮机技术. 2008, 50(1):1,25
|
| [20] |
牛万斌, 卢金生. 常用齿轮钢材气体深层渗氮工艺特性研究[J]. 金属加工, 2009, (17): 19-20
|
| [20] |
牛万斌, 卢金生. 常用齿轮钢材气体深层渗氮工艺特性研究[J]. 金属加工, 2009, (17): 19-20
|
| [21] |
唐宏伟, 王伯昕, 黄威, 等. 40CrNiMo钢的稀土渗氮工艺研究[J]. 热处理技术与装备, 2015, 36(1): 12-15
|
| [21] |
唐宏伟, 王伯昕, 黄威, 等. 40CrNiMo钢的稀土渗氮工艺研究[J]. 热处理技术与装备, 2015, 36(1): 12-15
|
| [22] |
刘志儒, 闫牧夫, 等.稀土与碳氮原子共渗及其微合金化创新理论[J].材料热处理学报2011, 32(7): 121-129.
|
| [22] |
刘志儒, 闫牧夫, 等.稀土与碳氮原子共渗及其微合金化创新理论[J].材料热处理学报2011, 32(7): 121-129.
|
| [23] |
张泰华, 刘东旭, 郇 勇, 等. 基体对氮化钛膜的微力学和摩擦性能的影响[J]. 中国表面工程. 2003(4): 23-26
|
| [23] |
张泰华, 刘东旭, 郇 勇, 等. 基体对氮化钛膜的微力学和摩擦性能的影响[J]. 中国表面工程. 2003(4): 23-26
|
| [24] |
孔德军, 张垒, 付贵忠. 激光淬火对40CrNiMo高强度钢拉伸性能与断口形貌的影响[J]. 兵工学报, 2014, 35(7): 996-1002
|
| [24] |
孔德军, 张垒, 付贵忠. 激光淬火对40CrNiMo高强度钢拉伸性能与断口形貌的影响[J]. 兵工学报, 2014, 35(7): 996-1002
|
| [25] |
李家汉, 杜永春, 熊建钢. 汽车用齿轮激光淬火工艺研究[J]. 南昌航空工业学院学报(自然科学版), 2003, 17(3): 56-59
|
| [25] |
李家汉, 杜永春, 熊建钢. 汽车用齿轮激光淬火工艺研究[J]. 南昌航空工业学院学报(自然科学版), 2003, 17(3): 56-59
|
| [26] |
杨冬春, 边越洋. 一种改进型40CrNiMo钢及其热处理工艺, ZL:201210309234.5
|
| [26] |
杨冬春, 边越洋. 一种改进型40CrNiMo钢及其热处理工艺, ZL:201210309234.5
|
| [27] |
朱伟军, 一种改进型40CrNiMo钢及其制备方法, ZL:201110178949.7
|
| [27] |
朱伟军, 一种改进型40CrNiMo钢及其制备方法, ZL:201110178949.7
|
| [28] |
Pranay Choudhary, Warren M. Garrison Jr. The Effect of Inclusion Type on the Toughness of 4340 Steel[J]. Materials & Manufacturing Processes. 2010?,?25?(1-3)?:180-184
|
| [28] |
Pranay Choudhary, Warren M. Garrison Jr. The Effect of Inclusion Type on the Toughness of 4340 Steel[J]. Materials & Manufacturing Processes. 2010?,?25?(1-3)?:180-184
|
| [29] |
S.W. Thompson. Structural characteristics of transition-iron-carbide precipitates formed during the first stage of tempering in 4340 steel[J]. Materials Characterization, 2015, 106(8): 452-462
|
| [29] |
S.W. Thompson. Structural characteristics of transition-iron-carbide precipitates formed during the first stage of tempering in 4340 steel[J]. Materials Characterization, 2015, 106(8): 452-462
|
| [30] |
W. Jomaa, V. Songmene, P. Bocher. An Investigation of Machining-Induced Residual Stresses and Microstructure of Induction-Hardened AISI 4340 Steel[J]. Materials and manufacturing processes. 2016, 31(7): 1-7
|
| [30] |
W. Jomaa, V. Songmene, P. Bocher. An Investigation of Machining-Induced Residual Stresses and Microstructure of Induction-Hardened AISI 4340 Steel[J]. Materials and manufacturing processes. 2016, 31(7): 1-7
|
| [31] |
K. Senthilraja, Mr. S. Jayakrishna. Surface Defect Hard Turning of AISI 4340 Steel[J]. INTERNATIONAL JOURNAL OF INNOVATIVE TECHNOLOGY AND RESEARCH, 2016, 4(5): 4216-4218
|
| [31] |
K. Senthilraja, Mr. S. Jayakrishna. Surface Defect Hard Turning of AISI 4340 Steel[J]. INTERNATIONAL JOURNAL OF INNOVATIVE TECHNOLOGY AND RESEARCH, 2016, 4(5): 4216-4218
|
| [32] |
Ketul M. TrivediJayesh V.Desai. An Experimental Investigation to Optimize the Process Parameters of AISI 4340 Steel in Hot Machining[J]. International Journal for Scientific Research & Development, 2014, 2(3): 2321-0613
|
| [32] |
Ketul M. TrivediJayesh V.Desai. An Experimental Investigation to Optimize the Process Parameters of AISI 4340 Steel in Hot Machining[J]. International Journal for Scientific Research & Development, 2014, 2(3): 2321-0613
|
| [33] |
MOH Cioffi. MP Silva. MYP Costa. Improvement in the fatigue strength of chromium electroplated AISI 4340 steel by shot peening[J]. Fatigue & Fracture of Engineering Materials & structure, 2009, 32(2): 97–104
|
| [33] |
MOH Cioffi. MP Silva. MYP Costa. Improvement in the fatigue strength of chromium electroplated AISI 4340 steel by shot peening[J]. Fatigue & Fracture of Engineering Materials & structure, 2009, 32(2): 97–104
|
| [34] |
Y. Matsumoto, D. Magda, D. W. Hoeppner, Tae Young Kim. Effect of Machining Processes on the Fatigue Strength of Hardened AISI 4340 Steel[J]. Journal of Engineering for Industry,?1991?,?113?(2)?:154-159?
|
| [34] |
Y. Matsumoto, D. Magda, D. W. Hoeppner, Tae Young Kim. Effect of Machining Processes on the Fatigue Strength of Hardened AISI 4340 Steel[J]. Journal of Engineering for Industry,?1991?,?113?(2)?:154-159?
|
| [35] |
S. Ramamurthy, A. Atrens. The influence of applied stress rate on the stress corrosion cracking of 4340 and 3.5NiCrMoV steels in distilled water at 30℃[J]. Corrosion Science,?2010,?52?(3): 1042-1051
|
| [35] |
S. Ramamurthy, A. Atrens. The influence of applied stress rate on the stress corrosion cracking of 4340 and 3.5NiCrMoV steels in distilled water at 30℃[J]. Corrosion Science,?2010,?52?(3): 1042-1051
|
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2018, Vol. 53 
