当前位置:浙江大学机械电子控制工程研究所 > 科研团队 > 教授


地址:智泉大楼I幢四楼
邮编:310027
电话:87952594
传真:87952507
邮箱:bxu@zju.edu.cn

徐兵

教授,博导

教育背景

 u  博士,浙江大学,1997.9~2001.6

 u  硕士,浙江大学,1992.9~1995.3

 u  学士,浙江大学,1988.9~1992.6

 

个人简介

     徐兵,男,2001年获浙江大学工学博士学位,教授,博士生导师。先后作为项目负责人获得国家和省部委纵向课题二十余项,荣获2009年度教育部新世纪优秀人才资助计划,2009年度中国机械工程学会青年科技成就奖,2009年度浙江省青年科技奖,2011年首批河北省高层次创新创业人才培养开发“巨人计划”,2011年江苏省“双创计划”引进人才。国家科技进步二等奖1项,省部级科技进步一等奖3项及二等奖1项。现任中国机械工程学会高级会员,中国航空学会高级会员,中国机械工程学会流体传动与控制分会委员,中国航空学会流体传动与控制专业委员会委员。担任《IEEE/ASME Transactions on Mechatronics》、《Energy Conversion and Management》、《Mechatronics》等重要国际期刊审稿人。研究方向是流体动力基础件和机电装备电液控制系统,主要包括高速重载变量轴向柱塞泵的设计理论与测试方法、高频响大流量电液控制阀高精度控制技术及电液控制系统的高效功率传递与能量调控。研究成果已在《Energy Conversion and Management》、《Mechatronics》、《Automation in Construction》、《International Journal of Solids and Structures》等国际刊物上发表SCI论文20余篇。申请发明专利40余项,已获授权国家发明专利31项。

 

研究方向

流体动力基础件

机电装备电液控制系统

 

任职经历

2014/10 -至今,浙江大学流体动力与机电系统国家重点实验室,副主任

2009/4-2013/12,浙江大学机械工程学院,机械电子控制工程研究所,副所长

2007/12 -至今,浙江大学机械工程学院,机械电子控制工程研究所,教授

2003/9-2007/11,浙江大学机能学院,机械电子控制工程研究所,副教授

2001/7-2003/8,浙江大学机能学院,机械电子控制工程研究所,讲师

 

重要奖项

[9] 高性能轴向柱塞泵/马达设计关键技术及应用,高等学校科学技术进步二等奖,教育部,排名第1,2013

[8] 盾构推进电液控制技术及装备,高等学校技术发明奖一等奖,教育部,排名第62009

[7] 2009年度教育部新世纪优秀人才资助计划。

[6] 2009年度中国机械工程学会青年科技成就奖。

[5] 2009年度浙江省青年科技奖。

[4] 2008年度浙江省151人才培养计划第一层次。

[2] 电液比例节能型电梯液压速度控制技术,国家科技进步二等奖,国务院,排名第22003

[2] 液压电梯及其液压控制系统,中国高校科技进步一等奖,教育部,排名第22001

[1] 液压电梯及其液压控制系统,浙江省科技进步一等奖,浙江省政府,排名第32001

 

学术活动

[8] The 8th FPNI Ph.D Symposium on Fluid Power, 2014.6.11~6.13, Lappeenranta, FinlandScientific Program Committee.

[7] The 3rd China-Japan Joint Workshop on Fluid Power, 2014.8.13~8.16, Taiyuan, China, Conference Chairman.

[6] The 6th IFAC Symposium on Mechatronic Systems, 2013.4.10~4.12, Hangzhou, China, National Organizing Committee.

[5] The 8th International Conference on Fluid Power Transmission and Control. 2013.4.9~4.11, Hangzhou, China, Organization Committee, Keynote session Chairman.

[4] The 6th Asian Conference on Multibody Dynamics (ACMD). 2012.8.26~8.30, Shanghai, China, Scientific Committee.

[3] The 2011 International Conference on Intelligent Robotics and Applications. 2011.12.6~12.9, Aachen, Germany, Conference Program Committee.

[2] The 2010 International Conference on Intelligent Robotics and Applications (ICIRA 2010). 2010.11.10~11.12, Shanghai, China, Scientific Program Committee.

[1] The 5th Asian Conference on Multibody Dynamics (ACMD), 2010.8.23~8.26, Kyoto, Japan, Session Chairman.

 

重要专利

 发明专利

[43] 斜盘旋转式内置阀配流轴向柱塞泵,发明专利,201410755437.6,已公开

[42] 一种采用双三位三通比例阀结构的新型高频响先导阀,发明专利,201410731676.8,已公开

[41] 一种电梯对重框夹持释放装置,发明专利,201410494890.6,已公开

[40] 电机和液压驱动互换的采煤机截割部,发明专利,201410400219.0,已公开

[39] 一种重载机构的高抗扭连接结构,发明专利,201410398272.1,已公开

[38] 采用缸体旋转的柱塞副摩擦力测量装置,发明专利,201410380197.6,已公开

[37] 测试滑靴副油膜厚度的位移传感器跟随机构,发明专利,201410360522.2,已公开

[36] 一种多执行机构液压系统发明,发明专利,201410162442.6,已公开

[35] 微型电磁铁测试件工作气隙调整装置,发明专利,201310610667.9,已公开

[34] 用于先导式比例阀的集成式过滤装置,发明专利,201310579270.8,已公开

[33] 手持液压动力属具的动力输出单元,发明专利,201310224395.9,已公开

[32] 一种球绞内置于活塞杆式液压缸,发明专利,201210444278.9,已公开

[31] 具有负载保持和缓冲减振功能的控制阀组发明,发明专利,ZL 2013101992103,已授权

[30] 工程机械液压系统,发明专利,ZL201210347745.6,已授权

[29] 高压大流量油缸动态测试系统,发明专利,ZL201210146090.6,已授权

[28] 一种抗压力冲击的低惯性柱塞,发明专利,ZL201210055673.8,已授权

[27] 一种基于串联泵转位角的低噪音轴向柱塞泵,发明专利,ZL 201110393825.0,已授权

[26] 一种基于压力平均低噪声轴向柱塞泵,发明专利,ZL 201110089678.8,已授权

[25] 高压断路器电液伺服操动机构,发明专利,ZL200910097058.1,已授权

[24] 一种柱塞副油膜粘性摩擦力测量装置,发明专利,ZL200810162050.4,已授权

[23] 一种柱塞泵/马达的柱塞副油膜特性测试装置,发明专利,ZL200810162051.9,已授权

[22 ]压电晶体电位移反馈负载口独立控制液压冲击器,发明专利,ZL200810164125.2,已授权

[21] 活塞位移电反馈负载口独立控制液压冲击器,发明专利,ZL200810164124.8,已授权

[20] 一种用于柱塞副微观性能测试的缸体,发明专利,ZL200710066681.1,已授权

[19] 一种液压配重可变节能液压升降系统发明,ZL200610155206.7,已授权

[18] 一种电梯上行保护装置,发明专利,ZL200510048933.9,已授权

[17] 采用变频技术的闭式回路液压抽油机,发明专利,ZL200410018250.4,已授权

[16] 液压缸控制的液压变压器,发明专利,ZL200410066924.8,已授权

[15] 采用闭式油路的节能电梯液压系统,发明专利,ZL200410018212.9,已授权

[14] 采用节能油缸的电梯液压系统,发明专利,ZL200410018213.3 1/2,已授权

[13] 变频液压电梯用集成阀,发明专利,ZL200410025658.4,已授权

[12] 变频容积调速闭式液压控制系统,发明专利, ZL03116049.2,已授权

[11] 降低装机功率的变频液压抽油机,发明专利,ZL200310108820.4,已授权

[10] 浸油式电动机轴转速测量装置,发明专利,ZL02110814.5,已授权

[9] 变频驱动液压电梯控制系统及控制方法,发明专利,ZL02110815.3,已授权

[8] 采用液压变压器液压电梯节能控制系统,发明专利,ZL03116048.4 ,已授权

[7] 高速大流量缝隙滑阀,发明专利, ZL03115991.5,已授权

[6] 液压自由活塞发动机增压启动装置,发明专利,ZL03115990.7,已授权

[5] 变频容积调速闭式液压控制系统,发明专利,ZL03116049.2,已授权

[4] 一种液压变压器,发明专利, ZL03129072.8,已授权

[3] 变频容积调速控制的液压抽油机,发明专利,ZL01139018.2,已授权

[2] 计算流量反馈控制的电梯液压系统,发明专利,ZL01142648.9,已授权

[1] 采用蓄能器的变频驱动液压电梯节能装置,发明专利,ZL01122224.7,已授权

 

软件著作权

[4] 开式柱塞泵配流盘设计软件V1.0,软著, 2014SR154656,已授权

[3] 基于Matlab滑靴副油膜特性仿真平台V1.0,软著, 2014SR145793,已授权

[2] 数字式比例放大器配置软件V1.0,软著,2013SR131017,已授权

[1] 基于Matlab柱塞泵流量脉动测试软件V1.0,软著,2013SR086593,已授权

 

重要论文

发表SCI论文

[28] Xu Bing, Ding Ruqi, Zhang Junhui. Pump/Valves Coordinate Control of the Independent Metering System for Mobile Machinery. Automation in Construction.  2015, Accepted. EI,SCI.

[27] Xu Bing, Cheng Min, Yang Huayong, Zhang Junhui. A Hybrid Displacement/Pressure Control Scheme for an Electrohydraulic Flow Matching System. IEEE/ASME Transactions on Mechatronics. 2015, Accepted. EI,SCI.

[26] Xu Bing, Hu Min, Zhang Junhui. Impact of Typical Steady-State Conditions and Transient Conditions on Flow Ripple and Its Test Accuracy for Axial Piston Pump. Chinese Journal of Mechanical Engineering. 2015, Accepted. EI,SCI.

[25] Xu Bing, Su Qi, Zhang Junhui. A dead-band model and its online detection for the pilot stage of a two-stage directional flow control valve. proceedings of the institution of mechanical engineers part c-journal of mechanical engineering science. 2015, Accepted. EI, SCI.

[24] Xu Bing, Lee Kok-meng, Song Yuechao, Yang Huayong. A Numerical and Experimental Investigation of Parametric Effect on Flow Ripple. proceedings of the institution of mechanical engineers part c-journal of mechanical engineering science. 2014, onlien. EI, SCI.

[23] Xu Bing, Ye Shaogan, Zhang Junhui. Effects of index angle on flow ripple of a tandem axial piston pump. Journal of Zhejiang University-Science A(Applied Physics & Engineering). 2015, Accepted. EI, SCI.

[22] Xu Bing, Sun Yinghui, Zhang Junhui, Sun Tong, Mao Zebing. A new design method for the transition region of valve plate for Axial Piston Pump. Journal of Zhejiang University-Science A(Applied Physics & Engineering). 2015, 16(3): 229-240. EI,SCI.

[21] Xu Bing, Cheng Min, Yang Huayong, Zhang Junhui. An energy-saving hydraulic servo system with safety consideration for pipe fatigue tests. Proceedings of the Institution of Mechanical Engineers Part I-Journal of Systems and Control Engineering. 2014, 228(7): 486-499. EI, SCI.

[20] Xu Bing, Dong Pengpeng, Zhang Junhui, Zhang Song. Design and evaluation of a novel self-locking quick release mechanism featured by heavy load, fast response, and high security. Advances in Mechanical Engineering. 2014, 2014(2). SCI.

[19] Xu Bing, Dong Pengpeng, Zhang Junhui, Zhang Song. A three dimensional approach to model steel wire ropes used in high energy absorber apparatus. International Journal of Solids and Structures. 2014, 514280-4293. SCI

[18] Xu Bing, Cheng Min, Yang Huayong, Zhang Junhui, Mao Zebing, Wang Di, Yue Yiming. An automatic three-dimensional loading apparatus for static tests of truss joints. Automation in Construction. 2014, 4811-17. EI, SCI.

[17] Xu Bing, Ding Ruqi, Zhang Junhui, Su Qi. Modeling and dynamic characteristics analysis on a three-stage fast-response and large-flow directional valve. Energy Conversion and Management. 2014, 79:187-199. EI,SCI.

[16] Xu Bing, Cheng Min, Yang Huayong, Zhang Junhui, Yang Meisheng. Safety brake performance evaluation and optimization of hydraulic lifting systems in case of overspeed dropping. Mechatronics. 2013, 23(8):1180-1190. EI,SCI.

[15] Xu Bing, Zhang Junhui, Yang Huayong. Simulation research on distribution method of axial piston pump utilizing pressure equalization mechanism. Proceedings of the Institution of Mechanical Engineers Part C: Journal of Mechanical Engineering Science. 2013, 227(3): 459-469. EI,SCI.

[14] Xu Bing, Song Yuechao, Yang Huayong. Pre-compression volume on flow ripple reduction of a piston pump. Chinese Journal of Mechanical Engineering (english Edition). 2013, 26(6): 1259-1266. EI,SCI.

[13] Xu Bing, Zhang Junhui, Yang Huayong, Li Yingbing. Investigation on structural optimization of anti-overturning slipper of axial piston pump. Science in China - Series E: Technological Sciences. 2012, 55(11): 3010-3018.  EI,SCI

[12] Xu Bing, Zhang Junhui, Yang Huayong, Zhang Bin. Investigation on the radial micro-motion about piston of axial piston pump Chinese Journal of Mechanical Engineering (English Edition). 2013, 26(2): 325-333. EI,SCI.

[11] Liu Wei, Xu Bing, Yang Huayong. Hydraulic Operating Mechanisms for High Voltage Circuit Breakers: Progress Evolution and Future Trends. Science China-Technological Sciences. 2011, 54(1):116-125. EI,SCI.

[10] Ma Ji'en, Xu Bing, Zhang Bin, Yang Huayong. Flow Ripple of Axial Piston Pump with Computational Fluid Dynamic Simulation Using Compressible Hydraulic Oil. Chinese Journal of Mechanical Engineering (English Edition). 2010, 23(1): 45-52. EI,SCI.

[9] Ma, Ji-en, Fang, You-tong, Xu, Bing, Yang, Hua-yong. Optimization of cross angle based on the pumping dynamics model. Journal of Zhejiang University-Science A(Applied Physics & Engineering). 2010, 11(3):181-190. EI,SCI.

[8] Zhang BinXu Bing, Xia Chunlin, Yang Huayong. Modeling and Simulation on Axial Piston Pump Based on Virtual Prototype Technology. Chinese Journal of Mechanical Engineering (English Edition). 2009, 22(1):84-90. EI,SCI .

[7] Zhang Bin, Xu Bing, Yang Huayong, Luo Degang. Investigation on the Cross Power Control of Axial Piston Double Pump Based on the Virtual Prototype. Journal of Advanced Mechanical Design Systems and Manufacturing. 2009, 3(3): 277-288. EI,SCI.

[6] Ouyang XiaoPing, Yang HuaYong, Jiang Haoyi, Xu Bing. Simulation of the piezoelectric high-speed on/off valve. Chinese Science Bulletin. 2008, 53(17): 2706-2711. SCI.

[5] Ouyang XiaoPing, Yang HuaYong, Xu Bing, Xu XiuHua. Research on the hydraulic transformer with new distribution pairs. Science in China - Series E: Technological Sciences. 2008, 51(4): 435-442. EI,SCI.

[4] Yang Huayong, Sun Wei, Xu Bing. New Investigation in energy regeneration of hydraulic elevators. IEEE/ASME Transactions on Mechatronics. 2007, 12(5): 519-526. EI,SCI.

[3] Xu Bing, Yang Jian, Yang Huayong. Comparison of Energy-Saving on the Speed Control of the VVVF Hydraulic Elevator with and without the Pressure Accumulator. Mechatronics. 2005, 15(10):1159-1174. EI,SCI.

[2] Yang Jian, Xu Bing, Yang Huayong. Study on the Floatation Mechanism and Floatation Performance for the Floatation Cyclone of Natural Inlet Air. Fuel. 2004, 83(17-18): 2419-2425. EI,SCI.

[1] Yang Huayong , Yang Jian, Xu Bing. Computational Simulation and Experimental Research on Speed Control of VVVF Hydraulic Elevator. Control Engineering Practice. 2004, 12(5): 563-568. EI,SCI.

 

 

上一篇:居冰峰

下一篇:姚斌