(2) Wu Lili, Chen Ting. Effect of oscillating air jet on polymer stretching in melt blowing process. Heat transfer research, 2013,44 (5): 483-492 (sci, EI)
(3) Wu Lili, Cheng Yuanling and Chen Ting *. Preliminary study on the mechanism of preparing nanofibers by melt splitting method. Journal of Nano Research, 20 13, 23: 92-95.
(4) Cheng Tingting, Xu Chuan, Wu Lili and Chen Ting *. Optimal design of die parameters for melt-blown double grooves. Advanced materials research, 2013,796 796: 272-276 (EI)
(5) Sue ... Application progress of image processing technology in nonwovens field. Textile Guide, 20 13, (12): 65-68
(6) Lu Peng, Chen Ting and Wu Lili. Grey correlation analysis of the correlation between the diameter change of raw silk and the holding time. Applied Mechanics and Materials, 20 12,148-149: 349-352 (EI)
(7) Chen Huajun, Chen Ting and Wu Lili. Lagrangian polymer stretching model for melt-blown nonwovens process. Applied Mechanics and Materials, 20 12,148-149: 465-469 (EI)
Dong Jiabin, Chen Ting *. Development status of melt-blown nonwovens technology. Textile Guide, 20 12, (6): 144- 150.
(9) Wu Lili, Chen Ting. Preliminary industrial verification of polymer air stretching model for melt-blown nonwovens process. Advanced materials research, 20 1 1,179-180: 668-671(ei)
(10) Wu Lili, Chen Ting *. General model of melt-blown nonwovens process. International Journal of Nonlinear Science and Numerical Simulation, 20 10,1(s): 281-285 (SCI).
(1 1) Chen Ting, Ke Wang, Wu Lili. Simulate the air flow in the conveying pipeline of the foreign fiber detection device. Frontier of chemical engineering in China, 20 10/0,4 (3): 275-279.
(12) Chen Ting, Wu Lili. Modeling and Simulation of Polymer Air Stretching in Melt-blown Nonwovens Part 1: Modeling and Simulation of Air Jet Flow Field. Journal of Modern Textile Science and Engineering, 20 10, 1 (1): 28-39.
(13) Chen Ting, Wu Lili. Modeling and Simulation of Polymer Air Stretching in Melt-blown Nonwovens Part II: Modeling and Simulation of Polymer Air Stretching. Journal of Modern Textile Science and Engineering, 20 10, 1 (1): 40-52.
(14) Zhao Shangzhen. Filtering performance of simulated nonwovens: comparison of artificial neural network, statistical model and grey model. Applied Mechanics and Materials, 20 10, 20-23:1021-1027 (ei)
(15),,, Li. Input variable selection method of artificial neural network for shear stiffness of worsted fabric. Statistical analysis and data mining, 2009, 1 (5): 287-295 (EI)
(16) Chen Ting, Zhang Weilong, Wu Lili. Application of fractal dimension in image processing of raw cotton foreign fiber. Journal of Testing Technology, 2009,23 (3): 248-252.
(17),, Li,. Numerical calculation of fiber diameter of melt-blown nonwovens produced by embedded die. Journal of Applied Polymer Science, 2009,11(4):1775-1779 (sci, EI)
(18) Suleiman Ndaro Mbowana, Chongwen Yu. The best inclination angle of water jet to obtain better tensile strength during hydroentanglement. Fiber & Eastern European Textiles, 2009, 17 (4): 82-86 (SCI)
(19) Chen Ting, Ke Wang, Wu Lili. Artificial neural network modeling of weft shear stiffness of worsted fabric. Proceedings of the 3rd International Conference on Intelligent Information Technology Application, Nanchang, China, 2009 1 1 month: 211-215 (ei).
(20), Xu Zengbo,,, Li. Pilling detection of fabric image based on multi-scale matched filtering. Journal of Textile Research, July 9, 2009 (15):1389-1395 (SCI)
(2 1) Wang Li, Chen Xia, Chen Ting * Measurement of fiber orientation distribution of nonwovens based on image processing. Journal of Donghua University (Natural Science Edition), 2009,35 (1): 84-89.
(22)*, Li,,. Artificial neural network technology is used to simulate the stretching process of spunbonded nonwovens. Journal of Textile Institute, 2008,99 (5): 479-488 (SCI, EI)
(23) A method for measuring the fiber orientation distribution of a nonwoven fabric. , Li, Wang Li. The invention patent number of China is ZL 2008 10034678.6, and the authorization announcement date is 2065438+June 2, 2000.
(24) A method for measuring porosity of nonwoven fabric. , Li,. The invention patent number of China is ZL20061018729.4, and the date of authorization announcement is 20 10 on March 24th.
(25) A neural network input parameter screening method based on fuzzy logic. The invention patent number of China and Li is 200610147213.2, and the authorization announcement date is February 1 1 day, 2009.
(26) Prediction method of fiber diameter of polymer extruded nonwovens. The invention patent number of China Chen Xia is ZL20061017086.1,and the date of authorization announcement is1in February 2009.
(27) A processing method for spinning milk fiber rotor yarn. , Liang Jinru, Li, Shi. China invention patent number: ZL 2005 10030374.9, authorization announcement date: February 4, 2009.
(28) A method and system for measuring the fiber diameter of a nonwoven fabric by polymer extrusion. The invention patent number of China Chen Xia is ZL2006101KLOC-0/7224.6, and the date of authorization announcement is July 30, 2008.
(XXIX) Chen Ting. Composite yarn. Special yarn, weaving and fabric structure: development and application (ISBN: 978- 1-84569-757-0). Cambridge: Woodhead Publishing Company Limited, 20 1 1. 1-20
Chen Ting, Wu Lili. Application of artificial neural network and statistical modeling in predicting nonwovens properties. In Patanaik Asis: Modeling and Simulation of Fiber Materials: Technology and Application (ISBN: 978-1-62100-1/6-4). New york: Nova Science Press, 20 12. 163- 182