[1]高峰, 郭为忠, 宋清玉, 等.重型制造装备国内外研究与发展[J].机械工程学报,2010,46(19): 92-107.
Gao Feng, Guo Weizhong, Song Qingyu,et al. Current Development of Heavy-duty Manufacturing Equipments[J]. Journal of Mechanical Engineering,2010, 46(19): 92-107.
[2]姚保森. 我国锻造液压机的现状及发展[J]. 锻压装备与制造技术, 2005,40(3): 84-86.
Yao Baosen. States and Development of Chinese Hydraulic Forging Press[J].China Metalforming
Equipment & Manufacturing Technology,2005,40(3): 84-86.
[3]王峰.12.5 MN快速锻造液压机电液控制系统的研制与开发[D].济南:山东大学, 2012.
[4]陈柏金. 16 MN快锻液压机控制系统研究[J].中国机械工程, 2008,19(8): 990-993.
Chen Baijin. Development of the Control System for 16 MN Fast Forging Hydraulic Press[J]. Chinese Journal of Mechanical Engineering, 2008, 44(10): 304-307.
[5]Kim S Y, Tsuruoka K,Yamamoto T. Effect of Forming Speed in Precision Forging Process Evaluated Using CAE Technology and High Performance Servo-press Machine[J].Procedia Engineering,2014,81:2415-2420.
[6]Liang Jintao, Zhao Shengdun, Xie Jia. Research on Hybrid-loop Servo Control System of Double Toggle Mechanical Press for Flexible Process[J].Journal of Mechanical Engineering, 2014, 50(7): 120-127.
[7]刘忠伟, 邓英剑. 巨型模锻液压机同步控制系统建模及仿真[J]. 中国机械工程, 2014, 25(13): 1800-1806.
Liu Zhongwei, Deng Yingjian. Modeling and Simulation for Giant Forging Hydraulic Press Synchronous Control System[J]. China Mechanical Engineering, 2014, 25(13): 1800-1806.
[8]Fu Xianbin, Liu Bin, Zhang Yuncun,et al. Fault Diagnosis of Hydraulic System in Large Forging Hydraulic Press[J]. Measurement, 2014, 49(1): 390-396.
[9]郭晓锋. 自由锻造液压机的发展与展望[J]. 重型机械, 2012(3): 29-32.
Guo Xiaofeng. Development and Outlook of Free Forging Hydraulic Press[J]. Heavy Machinery,2012(3): 29-32.
[10]Harald L,Weber J.Simulation-based Investigation of the Energy Efficiency of Hydraulic Deep Drawing Presses[C]//8th International Fluid Power Conference. Dresden,2013:116-124.
[11]Zhao Kai, Liu Zhifeng, Li Xinyu. Analytical Energy Dissipation in Large and Medium-sized Hydraulic Press[J]. Journal of Cleaner Production, 2014,103: 908-915.
[12]张新未, 张宏. PQ阀控液压系统动态特性模拟[J]. 机电工程, 2011,28(1): 47-50.
Zhang Xinwei, Zhang Hong. Simulation of Dynamic Performance of the PQ Valve-controlled Hydraulic System[J].Journal of Mechanical & Electrical Engineering, 2011,28(1): 47-50.
[13]崔海峰, 马岳峰, 王仁广, 等. 可主动调节四个轮缸压力的ABS/ASR集成液压系统[J].液压与气动,2005(4): 49-51.
Cui Haifeng, Ma Yuefeng, Wang Renguang,et al.ABS/ASR Integrated Hydraulic System with Active Pressure Regulator for 4 Wheel Cylinders[J].Chinese Hydraulics & Pneumatics, 2005(4):49-51.
[14]杨继东, 王昌垒, 苏振华. 31.5 MN快锻液压机蓄能器快锻控制特性分析[J]. 重庆理工大学学报(自然科学版), 2012,26(5): 33-36.
Yang Jidong, Wang Changlei, Su Zhenhua. Analysis on the Control Characteristics for 31.5 MN Fast Forging Hydraulic Press Using Accumulator[J].Journal of Chongqing University of Technology(Natural Science), 2012,26(5): 33-36.
[15]孙辉. 二次调节静液传动车辆的关键技术及其优化研究[D].哈尔滨:哈尔滨工业大学, 2009.
[16]刘军. 基于负载敏感理论的注塑机节能系统研究[D]. 淄博:山东理工大学, 2012.
[17]沈海阔, 金波, 陈鹰.基于能量调节的电液变转速控制系统[J]. 机械工程学报, 2009,45(5): 209-213.
Shen Haikuo, Jin Bo, Chen Ying. Variable Speed Hydraulic Control System Based on Energy Regulation Strategy[J].Journal of Mechanical Engineering,2009,45(5): 209-213.
[18]郭悦. 阀控油压机快锻液压系统能耗机理及节能控制研究[D].秦皇岛:燕山大学, 2014.
|