Name: Guoliang Hu
Corresponding Address:
School of Mechatronic Engineering, East China Jiaotong University,
Nanchang City, Jiangxi Province, P. R. China, 330013
Office Telephone: +86-791-87046133
Mobile: +86-13576963268
E-mails: glhu2006@163.com; glhu@ecjtu.edu.cn
Qualifications
11/2014-12/2015, and 09/2010-08/2011
A visiting fellow at the School of Mechanical, Materials & Mechatronic Engineering, University of Wollongong, Australia. The research scope mainly focuses on the behaviour of the MRF/MRE and their applications in potentialindustries, such as MR dampers, and MR valves.
03/2002-06/2006
Ph.D. candidate in the State Key Laboratory of Fluid Power and Mechatronic Systems, Zhejiang University, Hangzhou, P. R. China. Specializes in Fluid Power Transmission and Control of shield tunnel boring machine.
09/1999-02/2002
M.S. candidate in the College of Material Science & Engineering, Huazhong University of Science and Technology, Wuhan, P. R. China. Specialize in Lost Foam Pattern Molding and Control.
09/1992-06/1996
B.S. candidate in the Department of Mechatronics, Nanchang University, Nanchang, P. R. China. Specializes in Foundry Technology and Equipment.
Employment History
Full time in the School of Mechatronic Engineering, East China Jiaotong University as a Lecturer (2006.06-2008.10), Associate Professor (2008.11-2013.11), and Professor (2013.12-). Courses for undergraduate and graduate students, Main courses including: the Theory and Its Application of Finite Element Analysis, Computer Control of Mechatronic System, Artificial Intelligence, Hydraulic Servo Control System.
Research scope including: Theory and technology of fire water extinguishing equipments, Investigation of smart materials MRE/MRF and its applications in industries, Hydraulic fluid power transmission and control.
07/1996-08/1999
Full time in Jiangxi Diesel Engine Works, Nanchang, P. R. China. Assistant engineer in 1997, in charge of equipment maintenance and to be employed in design of diesel cylinder body and diesel cylinder head.
Selected Recent Publications
Journal Papers (In English)
[1]Guoliang Hu, Wei Zhou, Mingke Liao, Weihua Li. A new magnetorheological damper with improved displacement differential self-induced ability.Smart Materials and Structures, 2015, 24(8): 087001.
[2]Guoliang Hu, Wei Zhou, Mingke Liao, Weihua Li. Static and dynamic experiment evaluations of a displacement differential self-induced magnetorheological damper. Shock and Vibration, 2015, 501: 295294.
[3]Guoliang Hu, Yi Ru, Weihua Li. Design and development of a novel displacement differential self-induced magnetorheological damper. Journal of Intelligent Material Systems and Structures, 2015, 26(5): 527-540.
[4]Guoliang Hu, Ming Long, Lifan Yu, Weihua Li. Design and performance evaluation of a novel magnetorheological valve with a tunable resistance gap. Smart Materials and Structures, 2014, 23(12): 127001.
[5]Guoliang Hu, Ming Long, Ming Huang, Weihua Li. Design, Analysis, Prototyping, and Experimental Evaluation of an Efficient Double Coil Magnetorheological Valve. Advances in Mechanical Engineering, 2014, 6: 403410.
[6]Hu Guoliang, Zhou Wei, Ru Yi, Long Ming. Analysis of magnetic field characteristics for different winding cylinder materials of a new type of magnetorheological damper, Hydromechatronics Engineering, 2014, 43(12): 13-16, 33.
[7]Hu Guoliang, Yu Lifan, Li Haiyan, Huang Min, Long Ming. Simulation evaluation and performance analysis of a double coil magnetorheological valve. Hydromechatronics Engineering, 2013, 41(18): 11-18.
[8]Hu Guoliang, Long Ming, Chen Weigang. Structural design and analysis of water jet performances of a new type of fixed fire water monitor. Hydromechatronics Engineering, 2013, 41(12): 15-22.
[9]Hu Guoliang, Long Ming, Jiang Xi, Wang Shaolong. Feature description and extraction of flame image segmented region of early fire in large space. Hydromechatronics Engineering. 2012, 40(12): 27-36.
[10]Guoliang Hu, Miao Guo, Weihua Li, Haiping Du and Gursel Alici. Experimental investigation of the vibration characteristics of a magnetorheological elastomer sandwich beam under non-homogeneous small magnetic fields. Smart Materials and Structures, 2011, 20(12): 1-7.
[11]Guoliang Hu, Ming Long, Juxing Liang and Weihua Li. Analysis of jet characteristics and structural optimization of a liquamatic fire water monitor with self-swinging mechanism. International Journal of Advanced Manufacturing Technology, 2012, 59(5): 805-813.
[12]Hu Guoliang, Long Ming, Gao Zhigang. Dynamic characteristics analysis and simulation evaluation of a portable fire water monitor with valve-controlled cylinder system. Hydromechatronics Engineering. 2012, 40(6): 80-91.
Journal Papers (In Chinese)
[1]Hu guoliang, Li Haiyan, Yu Lifan, Long Ming. Influening of valve spool structure onpressure drop properties of single-coil magnetorheological valve. Machine Tool & Hydraulics, 2014, 42(17): 24-26, 32.
[2]Hu guoliang, Huang Min, Yu Lifan, Long Ming. Structure optimization design of a multi-stage pressure regulating magnetorheological valve. Machine Tool & Hydraulics, 2014, 42(11): 99-102.
[3]Hu guoliang, Yu Lifan, Huang Min, Long Ming. Structure design and performance test of a new type of magnetorheological valve with adjustable resistance gap. Chinese Hydraulics & Pneumatics, 2014(5): 98-100, 103
[4]Hu guoliang, Zhou Wei, Xie Zheng, Long Ming. Experimental tests of self-induced characteristics and damping performances of a differential self-induced magneto- rheological damper. Chinese Hydraulics & Pneumatics, 2014(3): 21-23, 26.
[5]Hu guoliang, Li Haiyan, Yu Lifan, Huang Min, Long Ming. Summary on structure design and functional integration of Magnetorheological damper. Machine Tool & Hydraulics, 2014, 42(5): 160-165.
[6]Hu guoliang, Huang Min, Yu Lifan, Long Ming. Influencing analysis of structure parameters on pressure drop of a double-coil magnetorheological. Chinese Hydraulics & Pneumatics, 2014(1): 89-92.
[7]Hu guoliang, Yu Lifan, Huang Min, Li Haiyan, Peng Xun. Pressure drop analysis of a double-coil magnetorheological valve. Machine Tool & Hydraulics, 2013, 41(19): 133-136.
[8]Hu guoliang, Li Haiyan, Peng Xun, Yu Lifan, Huang Min. Structure design and electromagnetic simulation of a double-coil magnetorheological valve. Machine Tool & Hydraulics, 2013, 41(15): 107-110.
[9]Hu guoliang, Ru Yi, Wang Hong. Influencing of magnetic characteristics and winding cylinder of differential self-induced magnetorheological damper. Machine Tool & Hydraulics, 2013, 41(13): 9-12.
[10]Hu guoliang, Ru Yi, Wang Hong. Mechanical performance analysis and simulation evaluation of a new type of differential self-induced magnetorheological damper. Machine Tool & Hydraulics, 2013, 41(9): 6-9, 13.
[11]Hu guoliang, Long Ming, Li Zhong, Wang Shaolong. Auto-targeting analysis of fire sprinkler system in interior large space. Machine Tool & Hydraulics, 2012, 40(23): 17-21, 41
[12]Hu guoliang, Ru Yi. Induction characteristics analysis of a new type of differential self-induced magnetorheological damper. Chinese Hydraulics & Pneumatics, 2012(10): 84-88.
[13]Hu guoliang, Gao Zhigang. Structural design and numerical simulation analysis of a portable fire water monitor with self-swinging mechanism. Machine Tool & Hydraulics, 2012, 40(15): 10-13.
[14]Hu guoliang, Long Ming, Li Zhong, Wang Shaolong. Analysis of water jet trajectory of auto-targeting fire sprinkler system in interior large space. Manufacturing Automation, 2012, 34(8): 57-60.
[15]Hu guoliang, Jiang Xi, Wang Hong. Research of video flame detection based on multi-feature integration technology. Machinery Design & Manufacture, 2012(7): 213-215.
[16]Hu guoliang, Long Ming, Gao Zhigang. Jet characteristics analysis of fire water monitor’s nozzle. Chinese Hydraulics & Pneumatics, 2012(7): 93-97.
[17]Hu guoliang, Gao Zhigang. Design and dynamic characteristics analysis of self-swinging control system of portable fire water monitor. Chinese Hydraulics & Pneumatics, 2011(10): 34-38.
Conference Papers (In English)
[1]Guoliang Hu, Zheng Xie, Weihua Li. Optimal design of a double coil magnetorheological fluid damper with various piston profiles. The 11th World Congress on Structural and Multidisciplinary Optimisation (WCSMO-11), 07th -12th, June 2015, Sydney Australia.
[2]Guoliang Hu, Lifan Yu, Min Huang, Haiyan Li and Xun Peng. Finite element simulation and pressure drop analysis of a double coil magnetorheological valve. The 8th International Conference on Fluid Power Transmission and Contro, Hangzhou: International Academic Publishers, April 9-11, 2013: 396-399.
[3]Guoliang Hu, Shaolong Wang, Ming Long. Vibration characteristics analysis of MRE cantilever sandwich beam. The Third International Symposium on Innovation & Sustainability of Modern Railway, Nanchang, China, September 20-21, 2012: 153-159.
[4]Guoliang Hu, Miao Guo, Weihua Li. Analysis of vibration characteristics of magnetorheological elastomer sandwich beam under non-homogeneous magnetic field. The 2nd International Conference on Engineering Design and Optimization, Ningbo, China, August 19-21, 2011.
[5]Guoliang Hu, Weigang Chen, Zhigang Gao. Flow analysis of spray jet and direct jet nozzle for fire water monitor. Advanced Materials Research, Vols. 139-141, 2010: 913-916.
[6]Guoliang Hu, Zhigang Gao. Dynamic characteristics research of self-swinging control system with valve-controlled cylinder device for liquamatic fire water monitor. Applied Mechanics and Materials, Vols. 44-47, 2011: 1427-1431.
[7]Hu Guoliang, Jiang Xi. Early fire detection of large space combining thresholding with edge detection techniques. Applied Mechanics and Materials, Vols. 44-47, 2011: 2060-2064.
[8]Guoliang Hu, Zhong Li. Design of intelligent fire extinguishing system of interior large space. International Conference on E-Product E-Service and E-Entertainment, Nov 7-9, 2010, Henan, China.
[9]Guoliang Hu, Aimin Hu, Juxing Liang. Study of the influence rules between structural parameters and jet characteristics of a liquamatic fire water monitor with self-swinging device. Applied Mechanics and Materials, Vols. 37-38, 2010: 1254-1258.
[10]Guoliang Hu, Zhong Li. Design and key technology research into auto-targeting fire extinguishing system of interior large space. 2010 International Conference on Electrical and Control Engineering, June 25-27, 2010, Wuhan, China. 687-690.
[11]Guoliang Hu, Zhigang Gao. Design and numerical simulation of the liquamatic fire water monitor with vavle-controlled cylinder device. The International workshop on Mechanic Automation and control Engineering, June 26-28, 2010, Wuhan, China. 2524-2527.
[12]Guoliang Hu, Xianjian He. The parametric modeling and optimization for cutter head of shield tunneling machine. 2010 International Conference on Computing, Control and Industrial Engineering, June 5-6, 2010, Wuhan, China. 316-319.
[13]Hu Guoliang, Jiang Xi. Early fire detection in large space based on image processing technology. Proceedings of the Third International Symposium on Test Automation & Instrumentation, May 22-25, 2010, Xiamen, China. Vol.1-4, 619-623.
[14]Guoliang Hu, Weigang Chen. Hydraulic performance research of a fixed fire water monitor. Advanced Materials Research, Vols. 97-101, 2010: 2792-2796.
[15]Guoliang Hu, Juxing Liang. Design and jet characteristics study of a liqumatic fire water monitor with self-swinging device. Advanced Materials Research, Vols. 97-101, 2010: 2801-2805.
[16]Guoliang Hu, Weigang Chen, Xinjian Zhou. Design and simulation analyses of fixed fire water monitor. The Seven International Conference on Fluid Power Transmission and Control, Hangzhou: International Academic Publishers, April 7-10, 2009: 720-723.
Issued Invention Patents
[1]Hu Guoliang, Ru Yi. A displacement differential self-induced magnetorheological damper. ZL 201210079972.5, Issued date: 2014-04-02. Application date: 2012-03-23.
[2]Hu Guoliang, Long Ming, Li Zhong, Li Zhigang, Zhou Xinjian. An automatic fire extinguishing system in interior large space with two stage transmission mechanisms. ZL 201210146232.9, Issued date: 2014-04-23. Application date: 2012-05-13.
[3]Hu Guoliang. Hydraulic auto-oscillation control system for fire water monitor. ZL 200910186714.5, Issued date: 2011-09-28, Application date: 2009-12-15.
[4]Hu Guoliang. A fire water monitor head with functions of spray jet and direct jet. ZL 200910186433.X, Issued date: 2011-12-21, Application date: 2009-11-5.
[5]Hu Guoliang. A hydraulic control system of explosion proof hoist with multiple pump combined technique. ZL 200910186500.8, Issued date: 2011-07-27, Application date: 2009-11-17.
[6]Hu Guoliang. An auto-targeting fire extinguishing device of interior large space with shorter targeting time. ZL 200910186204.8, Issued date: 2012-01-11, Application date: 2009-10-13.
[7]Hu Guoliang. A foldablefire water monitor with hydraulic auto-oscillation device. ZL 200910115391.0, Issued date: 2011-07-27,Application date: 2009-05-22.
Academic Awards
[1]The Third Prize of Invention Award of Jiangxi Province in 2013;
[2]The First Prize of Science and Technology Award of Jiangxi Education Department in 2013;
[3]Excellent director of master thesis of ECJTU in 2010, 2012 and 2014;
[4]Excellent director of undergraduate thesis of ECJTU from 1997 to 2010, 2012 to 2014, respectively.
Research Activities and Interests
1、Magnetorheological smart instruments and its potential industrial applications
In this field, my research interests include the theory deductions, simulation analysis and experimental tests of the MRE/MRF sandwich beam, development of MR damper with self-sensing ability, and flow cut off research of MR valves with double exciting coils and a tunable resistance gap.
Now I received three fundings of National Natural Science Foundation of China (No. 51165005, 51475165, 11462004) in 2011 and 2014, respectively; and I also received the funding of the international collaborative project of Jiangxi Province (No. 20132BDH80001).
2、Theory and Technology of Fire Water Extinguishing Equipments
In this field, my research interests include product design and hydraulic performance research of fire water monitor, especially focusing on the rules between the optimization of structural geometry of the fire water monitor and the jet performances of the fire water monitor. At the same time, the early fire detection, location and monitoring in large space are also concerned with based on the image processing technology.
I presided over the project of the National Natural Science Foundation of China (No. 50865004), “Research into hydraulic performance and structural parameter's optimization for fire water monitor”, and the project of Young Scientist and Jing’gang Star of Jiangxi Province (No. 2009DQ0110), “Key technology research of intelligent fire water monitor in large space”. Also I published more than 30 technical papers and obtained two academic awards in this field.
3、Hydrualic Fluid Power Transmission and Control
In this field, my research interests include hydraulic system integration design, development and basic theoretical research of hydraulic components, especially for the shield tunnel boring machine.
I presided over the project of the Natural Science Foundation of Jiangxi Province of China (No. 2007GZC0867), “Research into earth pressure balance control mechanism of shield tunnel boring machine”, and the project of Foundation of Jiangxi Educational Committee (No. GJJ08234), “Earth pressure control in the closing chamber of the shield tunnel boring machine”.
Professional Membership / Certification
uMember of Chinese Mechanical Engineering Society
uMember of Chinese Institute of Railway
uCouncil member of Zhejiang University of Alumni Association in Jiangxi Province
Referees
Prof. Weihua Li, Collaborator
School of Mechanical, Materials and Mechatronic Engineering
University of Wollongong, Wollongong
NSW 2522, Australia
Phone:+61 2 4221 3490
Fax: +61 2 4221 3238
Email:weihuali@uow.edu.au
Prof. YANG Huayong, Advisor for PH. D.
Director, The State Key Laboratory of Fluid Power and Mechatronic Systems
Zhejiang University,
Hangzhou, P. R. China, 310027
Tel: +86-571-87952506, Fax: +86-571-87952507
E-mail: yhy@.zju.edu.cn
Prof. YE Shenping, Advisor for M. S.
School of Material Science & Engineering
Huazhong University of Science and Technology
Wuhan, P. R. China, 430074
Tel: +86-27-87543876, Fax: +86-27-87653876
E-mail: yesp@public.wh.hb.cn
Telephone: 86-(0)791-87046122
Email:me@ecjtu.edu.cn