[1]Domblesky J P，Shivpuri R，Altan T. A Review of Radial Forging Technology Including Preform Design for Process Optimization[R].Columbus: Ohio State University，1994.

[2]中国锻压协会. 特种锻造[M].北京:国防工业出版社，2011.

Confederation of Chinese Metal Forming Industry.Special Forging[M].Beijing: National Defense Industry Press，2011.

[3]Hojas H.GFM precision radial forging machines[A].FIA Equipment Symposium[C].Chicago， 1973.

[4]Lahoti G D，Altan T. Analysis of the radial forging process for manufacturing rods and tubes[J]. Journal of Engineering for Industry，1976，98 (1):265-271.

[5]岳学松. GFM 精锻机及其工艺特点[J].特殊钢，1984，(6): 22-30，71.

Yue X S.GFM precision forging machine and its process characteristics[J].Special Steel，1984，(6): 22-30，71.

[6]中国机械工程学会塑性工程学会. 锻压手册[M].北京: 机械工业出版社，2008.

China Society of Mechanical Engineering Plastic Engineering. Forging Manual [M]. Beijing: China Machine Press，2008.

[7]宋涛， 赵升吨，刘洪宝.径向锻技术的应用及其发展[J].重型机械，2012，(3): 11-16.

Song T，Zhao S D，Liu H B. Application and development of radial forging technology[J].Heavy Machinery，2012，(3): 11-16.

[8]解卓明. 四锤头精锻机国产化的初探[J].锻压机械，1995，30(5):41-42.

Xie Z M. Preliminary study on domestication of four hammer radial forging machine[J]. Metalforming Machinery，1995，30(5): 41-42.

[9]Ghaei A, Movahhedy M R,Taheri A K. Study of the effects of die geometry on deformation in the radial forging process [J]. Journal of Materials Processing Technology,2005,170(1):156-163.

[10]张超, 赵升吨,孟德安,等.径向锻机主传动方式合理性的探讨[A].全球华人塑性技术研讨会[C].武汉: 中国机械工程学会,2013.

Zhang C, Zhao S D, Meng D A, et al. Research of driving methods of radial forging machine[A]. Global Chinese Plastic Technology Seminar[C].Wuhan: Chinese Mechanical Engineering Society，2013.

[11]葛鹏. 1.6 MN 精锻机主机设计[D].兰州:兰州交通大学,2016.

Ge P. The Design of 1.6 MN Precision Forging Machine[D]. Lanzhou: Lanzhou Jiaotong University, 2016.

[12]区炎光. 径向锻机的发展前景[J]. 锻压机械, 1983,18(4):64.

Ou Y G. Development prospect of radial forging machine [J]. Metalforming Machinery, 1983,18(4):64.

[13]张洪奎, 陈新建,王文革,等.径向锻造技术的应用[J].宝钢技术,2005,(5):15-17.

Zhang H K, Chen X J, Wang W G, et al. Application of radial forging technology [J]. Baosteel Technology, 2005, (5):15-17.

[14]杨震, 王炳正,宋道春,等.径向锻造设备与工艺综述[J].锻压装备与制造技术,2018,53 (6): 27-30.

Yang Z, Wang B Z, Song D C, et al. Overview of radial forging equipment and process [J]. China Metalforming Equipment ＆ Manufacturing Technology,2018,53 (6): 27-30.

[15]段志东, 葛鹏,周亚宁,等.四锤头径向锻造机锻造箱结构的动力特性研究[J].机械设计与制造,2013,（6）：109-111.

Duan Z D, Ge P, Zhou Y N, et al. Research on dynamic response of forging box of precision forging machine with four hammer[J].Machinery Design & Manufacture,2013,（6）：109-111.

[16]李佳, 何雪龙,黄艳龙,等.径锻机锤头调节过程分析[J].锻压装备与制造技术,2016,51 (6): 28-29.

Li J, He X L, Huang Y L, et al. Analysis of adjusting process for hammer in radial forging machine[J]. China Metal Forming Equipment ＆ Manufacturing Technology, 2016, 51(6): 28-29.

[17]武哲, 柯锋贤, 姜旭庆.径向锻造机锤头驱动方式的发展与思考[J].锻压技术,2020, 45(8):6-15.

Wu Z, Ke F X, Jiang X Q.Development and thinking of hammer driving mode for radial forging machine[J].Forging & Stamping Technology,2020,45(8):6-15.

[18]李阳, 白景年,王飞云,等. 精锻机夹头结构及运行原理研究[J].机械工程师,2014,（1）：173-174.

Li Y, Bai J N, Wang F Y, et al. Study on chuck structure and function theory of forging machine[J].Mechanical Engineer, 2014,（1）：173-174.

[19]刘贵明, 刘希宽,况怀波.径锻操作机旋转自动控制[J].一重技术,2006,(4):31-32.

Liu G M, Liu X K, Kuang H B. Automatic rotation control to manipulator of radial forging machine[J]. CFHI Technology,2006,(4):31-32.

[20]张信军. 精锻机夹头设计及关键件有限元分析 [D]. 天津: 河北工业大学,2007.

Zhang X J.Design of Precision Forging Machine Chuck Head and Key Pieces Finite Element Analysis [D].Tianjin: Hebei University of Technology,2007.

[21]Koppensteiner R, Auer M, Fair B. GFM radial forging machines for the titanium market [A]. Proceedings of the 13th World Conference on Titanium[C].San Diego:TMS,2016.

[22]刘强, 潘有武,黄艳龙,等.车轴径锻生产线及径锻机现状与发展趋势[J].锻压装备与制造技术,2016,51(5):7-9.

Liu Q, Pan Y W, Huang Y L, et al. Status and development trend of radial forging machine and radial forging production line for axle [J]. China Metalforming Equipment ＆ Manufacturing Technology,2016,51(5):7-9.

[23]张建. 长轴类件GFM精锻机锻造压实新技术的研究[D].秦皇岛：燕山大学,2016.

Zhang J. Research on GFM Precise Forging Machine′s New Forging Compacting Technology of Long Axis Parts[D]. Qinhuangdao:Yanshan University, 2016.

[24]马艳丰. Φ600 mm圆坯锻件的径向锻造工艺优化及微观组织模拟[D].秦皇岛:燕山大学,2017.

Ma Y F. Study of Process Optimization and Microstructure Evolution in Radial Forging Process of Φ600 mm Round Solid Billet[D]. Qinhuangdao:Yanshan University,2017.

[25]栾谦聪, 董湘怀, 吴云剑. 径向锻造工艺参数对锻透性的影响[J].中国机械工程, 2014, 25 (22): 3098-3103.

Luan Q C, Dong X H, Wu Y J. Effects of process parameters on FPE in radial forging processes[J].China Mechanical Engineering,2014,25(22):3098-3103.

[26]张建. 不同锤头和进给量对径向锻造高速钢 M2 碳化物的影响[D].石家庄:河北科技大学,2012.

Zhang J. Radial Forging M2-high Speed Steel on Different Hammer and Feed Influence on Carbide [D]. Shijiazhuang: Hebei University of Science and Technology,2012.

[27]徐方， 董湘怀，王新宝，等. 矩形截面件径向锻造工艺优化 [J]. 锻压技术，2019,44(4):1-9.

Xu F，Dong X H，Wang X B，et al. Optimization on radial forging process of rectangular crosssection billet [J]. Forging & Stamping Technology，2019, 44(4):1-9.

[28]王文革, 高雯.液压式径锻机锻造变形工艺新技术及特点 [A]. 第二届宝钢学术年会论文集 [C]. 上海:上海科学技术文献出版社,2006.

Wang W G, Gao W. New technology ＆ characteristics of deformation process for hydraulic radial forging machine [A]. Symposium of the Second Baosteel Academic Annual Meeting [C]. Shanghai:Shanghai Science and Technology Literature Press, 2006.

[29]钟丽萍. 10 MN 液压精锻机锻造箱的结构优化设计[J].机械设计,2011,28（3）:88-90.

Zhong L P. Structure optimization research of forging box of 10 MN precision hydraulic forging machine[J]. Journal of Machine Design,2011,28（3）:88-90.

[30]牛勇, 权晓惠,张营杰.径向锻造油压机电液伺服控制系统建模与仿真 [J]. 锻压技术,2020,45 (2): 144-152.

Niu Y, Quan X H, Zhang Y J. Modeling and simulation on electrohydraulic servo control system for radial forging hydraulic press [J]. Forging ＆ Stamping Technology,2020,45 (2): 144-152.

[31]张超, 赵升吨,母东. 航空锻件用径向锻机液压驱动方式合理性探讨 [J]. 液压与气动,2014,(6): 13-16.

Zhang C, Zhao S D, Mu D. Study of hydraulic driving radial forging machine for aeronautic products [J]. Chinese Hydraulics ＆ Pneumatics,2014,(6): 13-16.

[32]Glushenkova S G,Polozhentsev K A, Dmitriev A I, et al. Development of a technology for a hydraulic radial forging machine at the elektrostal metallurgical plant[J]. Metallurgist, 2017,61 (5-6): 394-399.

[33]张昊. 16 MN全液压式径锻机主机液压系统静动态特性的研究 [D]. 兰州: 兰州理工大学,2018.

Zhang H. Study on the Static and Dynamic Characteristics of the Hydraulic System of the 16 MN Radial Forging Machine [D]. Lanzhou: Lanzhou University of Technology,2018.

[34]武哲. 径锻机四锤头液压伺服系统的同步特性研究 [D].兰 州: 兰州理工大学,2015.

Wu Z. The Research on the Synchronization Characteristics of the Four Hammer Hydraulic Servo System of the Radial Forging Machine [D]. Lanzhou: Lanzhou University of Technology,2015.

[35]刘贵明, 商庆华,孙彤. 液压式径向锻造机的校正 [J]. 一重技术,2006,(2): 33-35.

Liu G M, Shang Q H, Song T. Hydraulic radial forging press calibration [J]. CFHI Technology, 2006,(2): 33-35.

[36]徐雪飞, 刘炳荣,郭海鸿. 特钢事业部13 MN径向锻造机主缸柱塞修复 [J]. 宝钢技术,2010,(6): 70-73.

Xu X F, Liu B R, Guo H H. Restoration to the radial forging machine′s master cylinder plunger piston in Baosteel Special Steel Business Unit [J]. Baosteel Technology,2010,(6): 70-73.

[37]周卫铭, 郭忠诚, 龙晋明,等. 电镀铅锡锑巴氏合金[J]. 机械工程材料, 2005, 29(1):27-29.

Zhou W M, Guo Z C, Long J M, et al. Electroplating of Pb2Sn2Sb alloy[J]. Materials for Mechanical Engineering, 2005, 29(1):27-29.