［1］李贵闪.伺服驱动液压机浅析[J].锻压装备与制造技术，2011,46（6）:17-19.Li G S. Brief introduction of servo-driven hydraulic press[J]. China Metalforming Equipment & Manufacturing Technology, 2011,46（6）：17-19.
［2］韩江，肖扬，夏链，等.新型伺服液压机泵控液压缸液压系统的建模与仿真[J]. 液压与气动，2011，（10）：12-15.Han J, Xiao Y, Xia L, et al. Modeling and simulation of hydraulic servo pump system for new servo controlled hydraulic machine[J]. Chinese Hydraulics & Pneumatics,2011,（10）：12-15.
［3］杜鑫，孙苓生.交流伺服电机在数控卷簧流水线中的应用[J].电气传动，2005,35（12）：51-54.Du X, Sun L S. Application of AC servo motors in a digital control plane roll-up spring pipeline[J].Electric Drive,2005,35（12）：51-54.
［4］Liu G，Zhou J，Duszczyk J. Prediction and verification of temperature evolution as a function of ram speed during the extrusion of AZ31 alloy into a rectangular section[J].Journal of Materials Processing Technology，2007，(186):19-199．
［5］Fatemi-Varzaneh S M，Zarei Hanzaki A，Naderi M，et al. Deformation homogeneity in accumulative back extrusion processing of AZ31 magnesium alloy[J].Journal of Alloys and Compounds，2010，(507):207-214.
［6］李贵闪，严建文，翟华.伺服液压机研究现状及关键技术[J].液压与气动，2011，（5）：39-41.Li G S, Yan J W, Di H. Servo hydraulic press research state and key technology[J]. Chinese Hydraulics & Pneumatics, 2011,（5）：39-41.
［7］严建文，刘家旭，陈汝昌，等.智能液压机研究现状及关键技术[J].锻压装备与制造技术，2013，48（2）：15-17.Yan J W, Liu J X, Chen R C,et al. Research status and key technology of intelligent hydraulic press[J]. China Metalforming Equipment & Manufacturing Technology,2013,48（2）：15-17.
［8］韩江，黄迪森，夏链，等.基于模糊PID控制的新型伺服液压机位置控制系统研究[J].液压与气动，2012，（2）：87-90.Han J, Huang D S, Xia L, et al. Study of position control system for new servo controlled hydraulic machine based on fuzzy PID control[J]. Chinese Hydraulics & Pneumatics,2012,（2）：87-90.
［9］Osakada K，Mori K，Altan T，et a1． Mechanical servo press technology for metal forming[J].CIRP Annals Manufacturing Technology，2011，(60):651-672.
［10］郑洪波，孙友松，李绍培，等.节能型直驱泵控伺服液压机及其能耗实验研究[J].锻压技术，2014,39（1）:79-85.Zheng H B, Sun Y S, Li S P, et al. Research on energy-saving direct-drive pump-controlled servo hydraulic press and its energy consumption experiment[J].Forging & Stamping Technology,2014，39（1）:79-85.
［11］郑洪波.伺服直驱泵控液压系统及其节能机理研究[D].广东:广东工业大学，2012.Zheng H B. Research on Direct Drive Pump-Controlled Servo Hydraulic System and Its Energy-saving Mechanism[D].Guangdong: Guangdong University of Technology,2012.
［12］尚万峰.开关磁阻电动机伺服驱动新型机械压力机的关键技术研究[D].西安：西安交通大学，2007.Shang W F. Research on Key Techniques of Press Driven by Switched Reluctance Motor[D]. Xi′an: Xi′an Jiaotong University, 2007.
［13］曹阳，田晓燕，李巧梅，等.无阀液压伺服系统的研究进展[J].现代制造工程，2012，（9）：126-129.Cao Y, Tian X Y, Li Q M, et al. Research progress in valveless electro-hydraulic servo system[J]. Modern Manufacturing Engineering,2012,（9）：126-129.
［14］冼灿标，齐水冰，孙友松，等.直驱泵控伺服液压机节能分析及试验研究[J].机床与液压，2014，42（5）：45-115.Xian C B, Qi S B, Sun Y S, et al. Analysis and experiment research on energy-saving mechanism of direct drive pump-controlled servo hydraulic press[J]. Machine Tool & Hydraulics,2014,42（5）:45-115.
［15］冼灿标.直驱泵控伺服液压机动态特性与节能机理研究[D].广东：广东工业大学，2012.Xian C B. Research on Dynamic Performances and Energy-Saving mechanism of Direct Drive Pump-controlled Servo Hydraulic Press[D]. Guangdong: Guangdong University of Technology,2012.
［16］徐大任.AC伺服冲压机及其应用[J]. 机械工人, 2005, (4):19-21.Xu D R. AC servo press and its application[J]. Metal Working, 2005, (4):19-21.
［17］Sun P,Gracio J J,Ferreira J A. Control system of a mini hydraulic press for evaluating springback in sheet metal forming[J].Journal of Materials Processing Technology，2006，176：55-61.
［18］Wang C L,Cui Y X,Li C. Investigation of pitting corrosion damage of a hydraulic press trunk piston[J].Engineering Failure Analysis，2003，10：251-254.
［19］Fulland M,Sander M,Kullmer G,et al. Analysis of fatigue crack propagation in the frame of a hydraulic press[J].Engineering Fracture Mechanics，2007，75：892-900.
［20］李旭.新型开式快速伺服液压机及其动态特性的研究[D].西安：西安交通大学，2008.Li X. Research on a New Type of Open-back High Speed Servo-hydraulic Press and Dynamic Characteristic[D]. Xi'an: Xi'an Jiaotong University, 2008.
［21］何寄平，孙友松，郑宏波，等.泵控伺服液压机节能分析[J]. 锻压装备与制造技术，2009,44（6）:24-27.He J P, Sun Y S, Zheng H B, et al. Energy consumption analysis of AC servo driven hydraulic press[J]. China Metalforming Equipment & Manufacturing Technology, 2009,44（6）:24-27.
［22］孙友松，何寄平，方雅，等.交流伺服驱动与成形装备节能[J]. 锻压装备与制造技术，2009,（5）:26-31.Sun Y S, He J P, Fang Y, et al. The AC servo drive and energy-saving of the forming equipment[J]. China Metalforming Equipment & Manufacturing Technology, 2009,（5）:26-31.
［23］夏卫明，李辉，骆桂林，等.125 t混合伺服液压机的特点、技术方案及应用[J].锻压技术，2014,39（9）：74-85.Xia W M, Li H, Luo G L, et al. Characteristics，technical solutions and applications of 125 t hybrid servo hydraulic press[J]. Forging & Stamping Technology, 2014,39（9）：74-85.
［24］夏卫明，骆桂林，嵇宽斌.一种新型无级可调高速伺服液压机液压系统[J].锻压装备与制造技术，2012，47（5）：32-34.Xia W M, Luo G L, Ji K B. A new type of stepless adjustable hydraulic system for high-speed servo hydraulic press[J]. China Metalforming Equipment & Manufacturing Technology,2012,47（5）:32-34.
［25］黄迪淼.新型伺服液压机控制系统研究与开发[D].合肥:合肥工业大学，2012.Huang D M. Research and Development of the Control System in the New Servo Hydraulic Press[D].Hefei: Hefei University of Technology,2012.