Sex: |
Female |
Date of birth: |
Jan. 1970 |
Nationality: |
Han |
Political status: |
Party member |
Education level: |
Postgraduate |
Degree: |
Ph. D |
Graduated from: |
Wuhan University of Technology |
Title: |
Associate professor |
[Personal profile: 2010.5: Ph. D in Machinery Manufacturing and Automation from Wuhan University of Technology. 2008.5-2009.5: engaged in the research on machinability prediction method and precision machining technology of difficult-machined materials in the Department of Industrial Manufacturing, Lund University, Sweden, funded by China Scholarship Council. Main research fields: cutting processing technology, virtual design and manufacturing and material surface strengthening engineering. She has been engaged in design and manufacturing process in Dongfeng Motor Corporation for many years, and has accumulated rich experience in manufacturing process and special processing technology.]
Contact information:
Tel: 027-67883273
E-mail: xulinhong@cug.edu.cn
Office: Room 326, No. 2 Teaching Building
Main experiences:
1988.9-1992.6: Bachelor of Engineering in Mechanical Manufacturing Process and Equipment, Wuhan Institute of Technology (Wuhan University of Technology)
1992.7-2000.5: Engineer, Cutting & Measuring Tool Plant of Dongfeng Motor Co., Ltd
2000.9-2003.5: Master of Engineering in Machinery Manufacturing and Automation, Wuhan University of Technology
2003.7-present: Associate professor, School of Mechanical Engineering and Electronic Information, China University of Geosciences (Wuhan)
2005.9-2009.5: Doctor of Engineering in Machinery Manufacturing and Automation, Wuhan University of Technology
2008.5-2009.5: Visiting scholar, Lund University, Sweden (co-supervisor: Prof. Jan-Eric Ståhl)
Main research fields:
1. Cutting processing technology
Micro cutting principle, cutting process simulation, tool wear mechanism research, machinability of difficult-to-machine materials
2. Material surface strengthening technology
Heat treatment process simulation, material deformation mechanism during heat treatment, advanced surface strengthening technology
3. Research and development of mechanical-electrical integration equipment
SCM development, signal detection and system integration design
Publications:
[1] L.H. Xu, X. Tan, J.X. Yun*, S.C. Shen, S.H. Zhang, C.M. Tu, W. Zhao, B. Tian*, G.S. Yang, K.J. Yao, Formulation of poorly water-soluble compound loaded solid lipid nanoparticles in a microchannel system fabricated by mechanical micro-cutting method: Puerarin as a model drug, Industrial & Engineering Chemistry Research, 51, 11373?11380, 2012.
[2] L.H. Xu,F. Schultheiss, M. Andersson, J. E. Ståhl *. General conception of polar diagrams for the evaluation of the potential machinability of workpiece materials, International Journal of Machining and Machinability of Materials, 2013. 14(1); p22-44, 2013.
[3] J.X. Yun, C.M. Tu, D.-Q. Lin, L.H. Xu*, Y.T. Guo, S.C. Shen, S.H. Zhang, K.J. Yao, Y.-X. Guan, S.-J. Yao*, Microchannel liquid-flow focusing and cryo-polymerization preparation of supermacroporous cryogel beads for bioseparation, Journal of Chromatography A, 1247, 81–88, 2012.
[4] P. Avdovic, L.H. Xu, M. Andersson, Jan-Eric Stahl*, Evaluating the machinability of inconel 718 using polar diagrams, Journal of Engineering for Gas Turbines and Power, 133, 072101-1, 2011.
[5] J.X. Yun, H. Wu, J. Liu, S.C. Shen, S.H. Zhang, L.H. Xu, K.J. Yao, Sh.J. Yao, Strategy of Combining Prfiltration and Chromatography Using Composite Cryogels for Large-Scale Separation of Biotransformation Compounds from Crude High-Cell-Density Broth, Industrial & Engineering Chemistry Research, 2015, in press.
[6] J.X. Yun, J.T. Dafoe, E. Peterson, L.H. Xu, S.J. Yao, A.J. Daugulis. Rapid freezing cryo-polymerization and microchannel liquid-flow focusing for cryogel beads: adsorbent preparation and characterization of supermacroporous bead-packed bed. Journal of Chromatography A, 2013, 1284, 148-154.
[7] W. Zhao, S.H. Zhang, M.Z. Lu, S.C. Shen, J.X.Yun, K.J. Yao, L.H. Xu, D.-Q. Lin, Y.-X. Guan, S.-J. Yao. Immiscible liquid–liquid slug flow characteristics in the generation of aqueous drops within a rectangular microchannel for preparation of poly (2-hydroxyethylmethacrylate) cryogel beads. Chemical Engineering Research and Design, 2014, 92, 2182-2190.
[8] Linhong Xu, Zhengfeng Jiang*, J. Ståhl, Research on the influence of carbon content on the machinability of Inconel 718. Modern Manufacturing Engineering, (2), 91-94, 2010.
[9] Linhong Xu, Zhengfeng Jiang*, J. Ståhl, Research on the diagraph method for evaluation of machinability of workpiece materials. Machinery, (2), 36-38, 2010.
[10] L.H. Xu*, K. Zhang, Realization of reverse engineering for the car body, 2010 International Conference on Mechanic Automation and Control Engineering, MACE2010, 2010.6.26-28, p.52-55, Wuhan.
[11] L.H. Xu*, Machinability data selection by using a fuzzy logic expert system, The 2nd International Workshop on Education Technology and Computer Science, ETCS 2010, V.3, 2010, 2010.3.6-7, p.256-259, Wuhan.
[12] J. Yang, X. Li*, J.H. Jiang, L. Jian, L. Zhao, J.G. Jiang, X.G. Wu, L.H. Xu. Parameter optimization for tubular solid oxide fuel cell stack based on the dynamic model and an improved genetic algorithm, International Journal of Hydrogen Energy, 36, 6160-6174, 2011.
Scientific research programs:
[1] Sub-task of the special project of China-EU intergovernmental international cooperation program of the Ministry of Science and Technology: Research on Cryogel new media and integrated system technology for biotransformation and separation, 2011, PI
[2] General Program of Natural Science Foundation of Hubei Province: On-board micro-channel machining method and related mechanism for micro-nano particle forming, 2011, PI
[3] Open fund program of State Key Laboratory of Fluid Power Transmission and Control, Zhejiang University: Precise fabrication of on-board micro-channels and study of the flow characteristics in micro-nano particle forming process, 2010, PI
[4] Scientific research program for Central Universities, China University of Geosciences: Research on the wear mechanism and machinability analysis method of the tool for difficult-to-machine materials, 2010, PI
[5] Equipment development program of China University of Geosciences (Wuhan): “Research on the compound machining technology of ultrasonic WEDM”, 2014, PI
[6] Top-quality course of China University of Geosciences (Wuhan): “Metal Materials and Heat Treatment”, 2007, PI
[7] Top-quality course development of Hubei Province: “Metal Materials and Heat Treatment”, 2008, the third principal investigator
[8] MOOC course development of China University of Geosciences (Wuhan): “Metal Materials and Heat Treatment”, 2014, the second principal investigator
Awards:
[1] Excellent award in teaching for teachers of China University of Geosciences (Wuhan), 2014
[2] Multifunctional household shoe cabinet, The Fifth National College Mechanical Innovation Competition, national first prize, first adviser, 2012
[3] Satisfactory wardrobe, The Fifth National College Mechanical Innovation Competition, first prize in Hubei Division, first adviser, 2012
[4] Household Smart shoe cabinet, The Fifth National College Mechanical Innovation Competition, First Prize of Fisher Group, first adviser, 2012
Patents for inventions:
[1] Linhong Xu, Wei Zhang, A method for preparing on-board micro-channel structure for microfluidic control, national patent for invention, 2013.2, ZL 201110114476.4.
[2] Linhong Xu, Wei Zhang, Auto whole column chromatography separation system, national patent for invention, 2013.8, ZL 201110129336.4;
[3] Linhong Xu, Junxian Yuan. Integrated Cryogels continuous forming device, utility model patent, 2014.8, ZL 2014201833249;
[4] Linhong Xu, Jinfeng Zheng. “Continuous bed chromatograph system software”, software copyright, 2013.12, registration No.: 2014SR079275.