WANG Xin Hou Professor
发布时间: 2015-03-13

NameWANG Xin Hou


Phone +86-021-67792633


Personal Introduction ( Education, Employment Experience)

  • Ph.D., Textile Engineering (1997) , Donghua University,China
  • M.Eng., Textile Engineering (1994) , Donghua University, China
  • B.S., Textile Engineering (1992) , Qingdao University, China
  • Visiting Scholar (2000-2002), Department of Functional Machinery and Mechanics, Faculty of Textile Science and Technology, Shinshu University, Japan
  • He is served as deputy director of Key Laboratory of Textile Ecology, Ministry of Education, student affairs departmentminister of Shanghai Textile Engineering Society and new spinning professional committee of China Textile Engineering Society.


  • Nonwoven technology: meltblowing, solution blowing or electrospinning of micro/nano fiber
  • Manufacturing processes and characterization of yarn and fabric
  • Recycling of waste textiles

Honors and Awards

  • Ministry of Education Outstanding Young Teachers (2003),
  • Shanghai Shuguang Scholar (2005)
  • Shanghai outstanding young university teachers (2008)
  • "China Textile Industry Association of Science and Technology Progress Award" prize (2010) "China Textile Association of Science and Technology Progress Award" prize (2012)

Research Projects

  1. "The formation mechanism of microfiber meltblown nonwoven fiber", the National Natural Science Foundation of China
  2. "Dynamic breathable mechanism of airbags material", Fok Ying Tung Education Foundation Young Teachers' Fund
  3. "Preparation and Properties of microfiber nonwovens", Shanghai Shuguang Program
  4. "Research on the dynamic mechanical properties of air bag fabric at high speed flow impact ", Ministry of Education Outstanding Young Teachers funded projects
  5. "Research on bamboo fiber identification method", "Research on fur fiber identification methods," State/Shanghai project
  6. Horizontal joint project "rotor core yarn spinning equipment and technology research," "small spinning prototype development", "yarn dyeing machine development", "outdoor-grade acrylic yarn and product development", "spinning research on basofil retardant fiber," "waste towel reinforced composites", "study on large-scale electrospinning device", "micro-nano meltblown nonwoven die design", " flexible discrete stab clothing developmentmade from resin/fabric composite"


1. Lou, Huiqing; Han, Wanli; Wang, Xinhou*, Numerical Study on the Solution Blowing Annular Jet and Its Correlation with Fiber MorphologyINDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH53(7)283028382014

2. Lou, Huiqing; Li, Wentao; Li, Chulin; Wang, Xinhou*, Systematic investigation on parameters of solution blown micro/nanofibers using response surface methodology based on Box-Behnken designJOURNAL OF APPLIED POLYMER SCIENCE130(2)1383-1391, 2013

3. Wang, Yudong;Wang, Xinhou*,Numerical Analysis of New Modified Melt-Blowing Dies for Dual Rectangular Jets, POLYMER ENGINEERING AND SCIENCE,54(1)110-116, 2014

4. Han, Wanli; Nurwaha, Deogratias; Li, Chulin; Wang, Xinhou*, Free Surface Electrospun Fibers:The Combined Effect of Processing Parameters , POLYMER ENGINEERING AND SCIENCE,54(1)189-197, 2014

5. Nurwaha, Deogratias; Han, Wanli; Wang, Xinhou*, Effects of processing parameters on electrospun fiber morphologyJOURNAL OF THE TEXTILE INSTITUTE104( 4)419-4252013

6. Wang, Yudong; Wang, Xinhou*, Investigation on a New Annular Melt-Blowing Die Using Numerical SimulationINDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH52(12)4597-46052013

7. Nurwaha, Deogratias; Wang, Xinhou*,The Use of Adaptive Neuro-Fuzzy Inference Systems and Support Vector Machines Techniques for Evaluation of Electrospun Nanofiber DiameterJOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE10(3)637-6422013

8. Nurwaha, Deogratias; Wang, Xinhou*, Optimization of electrospinning process using intelligent control systemsJOURNAL OF INTELLIGENT & FUZZY SYSTEMS24(3)593-6002013

9. Xin, Sanfa; Wang, Xinhou*, Mechanism of Fiber Formation in Melt BlowingINDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH 51(32), 10621-106282012

10. Xin, Sanfa; Wang, Xinhou*, Shear flow of molten polymer in melt blowingPOLYMER ENGINEERING AND SCIENCE, 52(6)1325-13312012

11. Han, Wanli; Wang, Xinhou*, Multi-Objective Optimization of the Coat-hanger Die for Melt-blowing ProcessFIBERS AND POLYMERS, 13(5), 626-631, 2012

12. Han, Wanli; Wang, Xinhou*,Optimal Geometry Design of the Coat-Hanger Die with Uniform Outlet Velocity and Minimal Residence TimeJOURNAL OF APPLIED POLYMER SCIENCE123(4)2511-25162012

13. Sun, Yafeng; Wang, Xinhou*Optimal geometry design of the melt-blowing slot die with high stagnation temperature via the orthogonal array method and numerical simulation, JOURNAL OF THE TEXTILE INSTITUTE, 102(1)65-69, 2011

14. Sun, Yafeng; Zeng, Yongchun;Wang, Xinhou*Three-Dimensional Model of Whipping Motion in the Processing of Microfibers, INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH 50(2)1099-1109 2011

15. Tang, Shan; Zeng, Yongchun; Wang, Xinhou*, Splashing Needleless Electrospinning of Nanofibers, POLYMER ENGINEERING AND SCIENCE,50(11)2252-22572010

16. Sun, Yafeng; Wang, Xinhou*Optimization of Air Flow Field of the Melt Blowing Slot Die via Numerical Simulation and Genetic Algorithm, JOURNAL OF APPLIED POLYMER SCIENCE,115(3)1540-15452010

17. Meng K, Wang XH*, Huang XB Optimal Design of the Coat-Hanger Die Used for Producing Melt-Blown Fabrics by Finite Element Method and Evolution StrategiePOLYMER ENGINEERING AND SCIENCE, 49(2 ), 354-3582009

18. Wang, X. H*. Kainuma, M. Bao, L. M. Nakazawa, M. A novel approach for evaluating the air permeability of Airbag fabricsTEXTILE RESEARCH JOURNAL, 76 (1), 66-70, 2006

19. Wang, X. H*. Chen, T. Huang, X. B. Simulation of the polymeric fluid flow in the feed distributor of melt blowing process JOURNAL OF APPLIED POLYMER SCIENCE, 101(3), 1570-15742006

Authorized patents:

1, Receiving apparatus and method forthe characterization of micro-nano fiber forming process, ZL201110211029.0

2,A uniform distribution of wide hanger die, ZL201110228176.9

3, Preparation method and production equipment for continuous and efficient nano-fiber nonwoven fabric, ZL200810039299.6

4, Tied two-component complex three-dimensional porous hollow curl fiber preparation, ZL 98111067.3

5,A self-leveling technology applied to dual open-loop control device and method, ZL200910048097.2

6, Motion detection device for cotton bundlescombing force, ZL200720075626.4

7, Non-contact dynamic detecting means of yarn traversalwinding tension, ZL 200920070048.4