|
Name:Huixia Liu |
|
Title:Professor; Doctoral advisor; Director of Industry Center |
|
Address:Room A309, Industry Center |
|
Phone: (86)013815151371, (86)511-88797998 |
|
Fax:(86)511-88780276 |
|
E-mail:lhx@ujs.edu.cn, 1184450165@qq.com |
|
Education
2003-2011 Doctor Mechanical manufacturing & automation,Jiangsu University, China
1982-1986 Bachelor Mechanical manufacturing process & equipment,Shaanxi Institute of Technology, China
Professional Experience
2005-Now Professor, Jiangsu University, China
1999-2004 Associate professor, Jiangsu University, China
1994-1998 Lecturer, Shaanxi Institute of Technology, China
1986-1993 Teaching assistant,Shaanxi Institute of Technology, China
Social Academic Post
1.Member of the ministry of education mechanical basic education guidance committee
2.Member of the discipline of engineering training of the ministry of education
3.Team leader of Jiangsu engineering training discipline
4.Executive director of Jiangsu laboratory research institute
5.Executive director of the Jiangsu province metal technology institute
Research Interests
Main research topic 1: laser shock micro forming technology
This research topic is supported by national natural science foundation project No. 51175235, No. 51675243 and Jiangsu province natural science foundation project No. BK2012712
The characteristics such as mass production for miniaturization industry demand, high efficiency, high precision, high density, short cycle, low cost, pollution-free restrict the wide application of manufacturing micro components employing existing micro fabrication techniques. In order to solve the problem of mass production of micro component problem for low cost and high efficiency, This research topic put forward the new method employing high-pulse laser-driven flyer and laser shock polymer indirect micro plastic forming to load metal foils.
The newly supported national natural science foundation project No. 51675243 is the extension, expansion and new discovery based on the national natural science foundation project No. 51175235 and Jiangsu province natural science foundation project No. BK2012712 to overcome the complicated preparation and installation of flyer, poor controllability of flyer and the damaged die caused by the rigid flyer loading the workpiece. In addition, the micro punching process can be extended to the micro forming and blanking compound process to directly manufacture the metal micro parts. Initial research results show that new method of using the soft polymer as flexible micro punch can increase the formabiliy, accurancy and quality of workpieces because it can prolong the duration time, uniform laser shock wave pressure and enhance the laser energy. In addition, this dynamic micro plastic forming for metal foils is suitable for mass production. They provide a new way of the engineering manufacturing for mciro parts because they can realize the direct forming of micro parts under single laser pulse.
Main research topic 2: laser transmission welding/connection technology
This research topic is supported by national natural science foundation project No.51275219.
The excellent connection quality, high processing speed, high precision, no pollution, flexiblity, easy control and the ability to connect micro parts make the new technology, laser transmission connection one of the hot topics in the research field. This method has been widely used in the automobile parts, encapsulation for electronics product, medical equipment, packaging and textile industry. However, after years study of laser transmission connection research, it is found that lack of the knowledge of many basic scientific problems such as the important relationship between optical property response of connected materials and match limit the application of this new technology, thus putting forward the new laser transmission connecting idea of match-oriented optical properties for connected materials. It aims to adapt to the need of connection/encapsulation for biological micro devices, establish the and optical property response and match criterion for connected materials and realize the active sift of connected materials and prepartion for new connected materials
Its content involves cross-discipline research such as laser optics, high polymer material science, inorganic non-metallic materials, heat transfer, mechanical manufacturing, automatic control and computer numerical simulation. This method has the deploitation and practicability in both the basic basic theory research and technolgy development. This research will play an important theory significance for laser transmission connection theory development and lay a foundation for the industrial application of laser transmission conection technology.
Teaching Courses
1. An Introduction to Mechanical Engineering
2. Basic Course of Engineering Materials & Mechanical Manufacturing
3. Basic Course of Engineering Materials & Forming
4. Advanced Manufacturing Technology and Tooling Comprehensive Practice
Hornors and Awards
1. The First prize for teaching research achievements, ministry of education mechanical basic education guidance committee/ministry of education engineering training teaching guidance committee, 1/9, 2016
2. The second prize for the training mode reform teaching achievements for graduate education in Jiangsu province, 4/4, 2015
3. Jiangsu province excellent course, 1/10, 2010
4. The second prize for Jiangsu provinve teaching achievements, 4/6, 2009
5. The ministry of education national outstanding teaching team, 4/7, 2009
6. The second prize for Chinese machinery industry science and technology, 8/10, 2009
7. The second prize for the ministry of education national teaching achievements, 4/7, 2005
8. Jiangsu provinve mechanical manufacturing perfect course, 1/10, 2002
9. The second prize for Jiangsu province multimedia courseware competition, 1/7, 2002
10. The second prize for Jiangsu provinve teaching achievements, 3/5, 2001
Main Research Projects
1. The basic research on micro plastic forming based on laser indirect loading metal foils technology(No.51675243), RMB 620,000, NSFC, 2017-2020
2. The basic research on the application of laser transmission connection for biological micro devices based on optical performance matching(No.51275219), RMB 800,000, NSFC, 2013-2016
3. The basic research on micro punching based on laser indirect impacting metal foils(No.BK2012712), RMB 100,000, Jiangsu province natural science foundation project, 2012-2015
4. The basic research on micro forming based on high-pulse laser-driven flyer loading metal foils technology(No.51175235), RMB 600,000, NSFC, 2012-2015
5. NC laser shot peening strengthening process and equipment researh(No.SGY20090026), Zhenjiang industry supporting project, 2009-2011
6. University-industry collaboration with Wujiang Chuangyuan electronic co., LTD, RMB 133,000, Wujiang Chuangyuan electronic co., LTD, 2015-2018
7. University-industry collaboration with Jiangsu Sumeida group, RMB 500,000, Jiangsu Sumeida group, 2015-2016
8. University-industry collaboration with Jiangsu Sumeida group, RMB 600,000, Jiangsu Sumeida group, 2011-2013
9. University-industry collaboration with Shanghai lvcheng mechanical and electronic technology co., LTD, RMB 200,000, Shanghai lvcheng mechanical and electronic technology co., LTD
10. University-industry collaboration with Jiangsu Jinfeida electric power tool co., LTD, RMB 200,000, Jiangsu Jinfeida electric power tool co., LTD, 2010-2013
11. Patent transfer for Hainan Zhongxin plastic co., LTD, RMB, 50,000, Hainan Zhongxin plastic co., LTD, 2012-2015
Main Research Projects
1. The basic research on high-pulse laser high speed shock welding(No.51675241), RMB 620,000, NSFC, 2007-2020
2. The basic research on micro forming based on high-pulse laser-driven flyer loading metal foils technology(No.51175235), RMB 600,000, NSFC, 2012-2015
3. The basic research on the application of laser transmission connection for biological micro devices based on optical performance matching(No.51275219), RMB 800,000, NSFC, 2013-2016
4. NC laser parallel machine tool(No. 09C26213203835), RMB 600,000, Ministry of Science and Technology Innovation Fund for small and medium-sized enterprises, 2009-2011
5. The development and manufacturing of NC laser parallel machine tool(No. 09C26213203835), RMB 400,000, Jiangsu Province Science and Technology Agency Innovation Fund for small and medium-sized enterprises, 2009-2011
6. The design and production technology development for new environmently-friendly and energy-saving interior trim parts products, scientific research project supported by enterprise, 2008-2010
7. The development of inteligent IC gas meter and its remote public management platform system, scientific research project supported by enterprise, 2009-2010
8. Supercharger CAE based on digital product development technology, scientific research project supported by enterprise, 2011-2013
9. Parameterized automatic drawing system for optical lens mould, scientific research project supported by enterprise, 2012-2013
10. Reverse engineering of mower parts, scientific research project supported by enterprise, 2009-2010
11. Reverse engineering technology development for vehicle ceiling, scientific research project supported by enterprise, 2009-2010
Main-Scientific Publications
1. Huixia Liu, Yingjie Jiang, Wensheng Tan, Guochun Chen, Wei Liu, Xiao Wang.The study of laser transmission joining PA66 and PVC with largecompatibility difference.Journal of Manufacturing Processes: 2017, 26:252–261. (SCI index)
2. Huixia Liu*, Wei Liu, Dongdong Meng, Xiao Wang. Simulation and experiment study of laser transmission welding considering the influence of interfacial contact status.Materials & Design:2016, 92:246-260.(SCI index)
3. Huixia Liu*, Guochun Chen, Hairong Jiang, Dehui Guo, Zhang Yan, Xuelian Wu, Pin Li, Xiao Wang. Performance and mechanism of laser transmission joining between glass fiber-reinforced PA66 and PC. Journal of Applied Polymer Science: 2016, 133(9):43068-1-8.(SCI index)
4. Huixia Liu, Wei Liu, Xuejiao Zhong, Baoguang Liu, Dehui Guo, Xiao Wang.Modeling of laser heat source considering light scattering during laser transmission welding.Materials & Design:2016,99:83-92.(SCI index)
5. Huixia Liu, Xianqing Sun, Zongbao Shen, Cong Li, Chaofei Sha, Liyin Li, Shuai Gao, Youjuan Ma, Xiao Wang.The size effect on deformation behavior in microscale laser shock flexible drawing. Optics and Laser Technology.2016,86:93-102.(SCI index)
6. Huixia Liu, Chaofei Sha, Zongbao Shen, Liyin Li, Shuai Gao, Cong Li, Xianqing Sun, Xiao Wang. Fabrication of Dish-Shaped Micro Parts by Laser Indirect Shocking Compound Process. Micromachines:2016,7(6):105.(SCI index)
7. Huixia Liu,Hairong Jiang,Guochun Chen,Dehui Guo,Zhang Yan,Pin Li,Xiao Wang.Investigation on the laser transmission weldability and mechanism of the graft-modified polyethylene and PA66.The International Journal of Advanced Manufacturing Technology:2016,86(1):809-816.(SCI index)
8. Huixia Liu *, Shuai Gao, Zhang Yan, Liyin Li, Cong Li, Xianqing Sun, Chaofei Sha, Zongbao Shen, Youjuan Ma and Xiao Wang. Investigation on a Novel Laser Impact Spot Welding. Metals :2016, 6(8): 179.(SCI index)
9. Jianwen Li, Huixia Liu*, Zongbao Shen, Qing Qian, Hongfeng Zhang, Xiao Wang. Formability of micro-gears fabrication punching in laser dynamic flexible punching.Journal of Materials Processing Technology:234:131-142.(SCI index)
10. Zongbao Shen, Huixia Liu*, Xiao Wang, Cuntang Wang.Improving the forming capability of laser dynamic forming by using rubber as a forming medium.Applied Surface Science:2016,369:288-298. (SCI index)
11. Huixia Liu*, Mengmeng Lu, Xiao Wang, Zongbao Shen, Chunxing Gu, Yuxuan Gu. Micro-punching of aluminum foil by laser dynamic flexible punching process. International Journal of Material Forming: 2015, 8(2): 183-196. (SCI index)
12. Huixia Liu*, Hairong Jiang, Dehui Guo, Guochun Chen, Zhang Yan, Pin Li, Hejun Zhu, Jun Chen, Xiao Wang. Study on Welding Mechanism Based on Modification of Polypropylene for Improving the Laser Transmission Weldability to PA66. Materials: 2015, 8(8): 4961-4977.(SCI index)
13. Huixia Liu*, Jianwen Li, Zongbao Shen, Qing Qian, Hongfeng Zhang, Xiao Wang. Experimental and Numerical Simulation Research on Micro-Gears Fabrication by Laser Shock Punching Process. Micromachines: 2015, 6(8): 969-983.(SCI index)
14. Huixia Liu*, Zhihui Huang, Chunxing Gu,Zongbao Shen, Xiao Wang. Experiment and numerical simulation of laser shock micro dents. International Journal of Surface Science and Engineering: 2014, 8(1): 57-70.(SCI index)
15. Huixia Liu*, Zhang Yan, Pin Li, Xiao Wang. Prediction of molten area in laser transmission welding of thermoplastic polymers.Science and Technology of Welding and Joining:2014, 19(6): 487-492.(SCI index)
16. Huixia Liu*, Yang Hu, Xiao Wang, Zongbao Shen, Pin Li, Chunxing Gu, Hui Liu, Daozhong Du, Chao Guo.Grain refinement progress of pure titanium during laser shock forming (LSF) and mechanical property characterizations with nanoindentation.Materials Science and Engineering: A, 2013, 564: 13-21.(SCI index)
17. Yang Hu, Huixia Liu*, Xiao Wang, Zongbao Shen, Pin Li, Chunxing Gu, Yuxuan Gu, Mengmeng Lu, Qiang Zhang. Formation of nanostructure and nano-hardness characterization on the meso-scale workpiece by a novel laser indirect shock forming method. Review of Scientific Instruments: 2013, 84(4): 045001.(SCI index)
18. Huixia Liu*,Zongbao Shen,Xiao Wang,Pin Li,Yang Hu,Chunxing Gu. A Study on Fabricating Microdeep Recessed Part on Copper Foil Using Laser Indirect Shock Forming.Journal of Manufacturing Science and Engineering -Transactions of The ASME:2013, 135:041011.(SCI index)
19. Huixia Liu*, Hejun Wang, Zongbao Shen, Zhihui Huang, Wei Li, Yuanyuan Zheng, Xiao Wang. The research on micro-punching by laser-driven flyer.International Journal of Machine Tools & Manufacture:2012, 54: 18-24. (SCI index)
20. Huixia Liu*, Kai Wang, Cheng Zhang, Pin Li, Yangyang Gao, Yang Hu, Xiao Wang. Influence of film thickness of Ti coating on bonding quality of glass with PET. Surface Engineering: 2012, 28(9):705-709. (SCI index)
21. Huixia Liu*, Kai Wang, Pin Li, Cheng Zhang, Daozhong Du, Yang Hu, Xiao Wang. Modeling and prediction of transmission laser bonding process between titanium coated glass and PET based on response surface methodology. Optics and Lasers in Engineering: 2012, 50: 440–448. (SCI index)
22. Huixia Liu*, Zongbao Shen, Xiao Wang, Pin Li, Yang Hu, Chunxing Gu. Feasibility investigations on a novel micro-embossing using laser-driven flyer. Optics & Laser Technology: 2012, 44: 1987–1991. (SCI index)
23. Zongbao Shen, Huixia Liu*, Xiao Wang and Hejun Wang.Micromold-Based Laser Shock Embossing of Metallic Foil: Fabrication of Large-Area Three-Dimensional Microchannel Networks. Materials and Manufacturing Processes: 2011,26(09): 1126 - 1129. (SCI index)
24. Huixia Liu, Zongbao Shen, Xiao Wang, Hejun Wang. Maoke Tao. Numerical simulation and experimentation of a novel micro scale laser high speed punching.International Journal of Machine Tools and Manufacture:2010, 50:491-494. (SCI index)
25. Huixia Liu, Zongbao Shen, Xiao Wang, Hejun Wang, Maoke Tao. Micromould based laser shock embossing of thin metal sheets for MEMS applications.Applied Surface Science: 2010,256:4687-4691. (SCI index)
26. Huixia Liu, Zongbao Shen, Xiao Wang,Hejun Wang. Numerical simulation and experimentation of a novel laser indirect shock forming.Journal of Applied Physics, 2009,106,063107. (SCI index)
Patents (omitted)
Plan for Overseas Master & Ph. D |
One Ph. D and One Master |