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李忠明个人简介

 

李忠明,男,1969年7月生,籍贯四川安岳,工学博士,博士生导师。现任四川大学高分子科学与工程学院副院长。

1993年毕业于西北工业大学高分子材料专业,获学士学位。1996年毕业于四川联合大学塑料工程专业,获硕士学位并留校任教。2003年获四川大学材料加工工程专业博士学位。1998年任讲师,2000年和2003年先后破格晋升副教授、教授,2005年任博士生导师。2008-2009年在美国纽约州立大学Stony Brook分校Benjamin Hsiao教授课题组做访问学者。2001年和2003年连续两届入选四川大学“214重点人才工程计划”,2004年入选教育部“新世纪优秀人才支持计划”,2004年入选“四川省杰出青年学科带头人培养计划”、“教育部新世纪优秀人才支持计划”和“教育部创新团队发展计划”,2005年获霍英东青年教师基金奖励,2006年获四川省青年科技奖,2007年起任四川大学985工程I类科技创新平台“高分子与特种功能材料”学术带头人,2009年获国家杰出青年科学基金,2011年入选四川省学术技术带头人,2012年入选政府特殊津贴专家。

讲授了《高分子材料加工基础》(四川大学精品课程)及《橡胶加工原理与技术》等课程。2004年获四川省优秀教学成果二等奖。参加编写了《模压技术》、《塑料工程手册》、《塑料热成型及二次加工》、《材料科学大典》等著作。指导硕、博士研究生30余名。

主要从事聚合物加工、形态、结构与性能,聚合物导电复合材料,聚氨酯功能泡沫塑料等研究。负责了国家和省部级及横向科研项目30余项,其中,国家自然科学基金7项、科技部高技术发展项目(863) 1项、教育部新世纪优秀人才支持计划1项、教育部博士点专项基金2项、四川省杰出青年基金1项。迄今在国内外核心刊物发表SCI收录170余篇,被SCI他引1700余次。以第一发明人申请国家发明专利26项(授权6项),获省部级科研奖励4项。

CURRICULUM VITAE (CV)
PERSONAL DATA
Name: Zhong-Ming Li Date of Birth: July 19, 1969
Gender: Male Nationality: China
Communication Address:
College of Polymer Science and Engineering
State Key Laboratory of Polymer Materials Engineering
Sichuan University, Chengdu, 610065, Sichuan
People’s Republic of China
Tel: +86- (0)28-85406866 (o)

Email:
zmli@scu.edu.cn
•WORK EXPERIENCE AND EDUCATION
Oct. 2010-present
Vice-dean of College of Polymer Science and Engineering, Sichuan University, Chengdu, China.
Responsibility: scientific research
Jul., 2003-present
Professor, Sichuan University, Chengdu, China.
Lecturing: Polymer Processing Principles
Processing, structure and properties of polymers (a graduate’s course)
Oct., 2008-Oct., 2009
Visiting research scientist, Stony Brook University, USA
Research: Flow induced crystallization of semicrystalline polymers
Jun., 2000-Jun., 2003
Associate Professor, Sichuan University, Chengdu, China
Lecturing: Polymer Processing Principles
Rubber Processing Fundamentals and Technology
Sep., 1999-Dec., 2003
Ph.D. in Polymer Science and Engineering, Sichuan University, Chengdu, China.
Advisor: Prof. Rui Huang
Sep., 1993-Jul., 1996
M.S. in Polymer Processing, Sichuan University, Chengdu, China
Advisor: Prof. Ming-Bo Yang
Sep., 1989-Jul., 1993
Bachelor in Polymer Materials and Engineering, Northwest Polytechnic University, Xi’an, China
•Selected research funding (research experience)


(1) Key Fund for International Cooperation and Exchange of the National Natural Science Foundation of China (2012.01-2016.12)
“Synchrotron radiation studies on basic scientific issues of polylactide crystallization under
external processing fields” (3,200,000 RMB)
Part: the principal investigator


(2) State Key Program of National Natural Science of China (2011.01-2014.12)
“Flow-induced order and its engineering realization” (1,000,000 RMB)
Part: the cooperative investigator


(3) Outstanding Youth Foundation of Natural Science Foundation of China (2010.1-2014.12)
“Structure and properties of microfibrillar polymer blends” (2,000,000 RMB)
Part: the principal investigator


(4) 863 project-High Technical Development Program of Scientific and Technological Department of China Government (NO. 2008AA03Z510) (2009.1-20011.12)
“Industrialization of in-situ microfibrillar reinforced polymer blend” (900,000 RMB)


(5) Natural Science Foundation of China (NSFC No. 50673061) (2007.1-2009.12)
“Properties and morphology manipulation of conductive polyurethane foam with carbon nanotubes” (300,000 RMB)
Part: the principal investigator


(6) Ying Tung Fok Education Foundation (Grant No.: 101045) (2006.3.15-2009.3.15)
“Carbon nanotubes/multiphase polymer blends: morphological manipulation and properties”
Part: the principal investigator (150,000 RMB)


(7) The Key Natural Science Foundation of China (NSFC No. 50527301) (2006.1-2008.12)
“Design and manufacture of processing-morphology controller and ints application to investigations on processing-structure-property of polymers” (800,000 RMB)
Part: the principal investigator


(8) Natural Science Foundation of China (NSFC No. 50573049) (2006.1-2008.12)
“Electrically conductive polym, er composites with in-situ conductive micorifibrils” (300,000 RMB)
Part: the principal investigator
(9) Natural Science Foundation of China (NSFC No. 10276024) (2003.1-2005.12)
“Failure Behavior and Reinforcing Mechanism of Reinforced Polyurethane Foam”
Part: the principal investigators (230,000 RMB)


(10) Outstanding Youth Foundation of Sichuan (2004.1-2006.12)
Electrically conductive polymer composite: Controlling its morphology (100,000 RMB)
Part: the principal investigator


(11) Program for New Century Excellent Talents in University (NCET) (2005.1-2007.12)
“Morphological manipulation and functionalization of polymer materials” (500,000 RMB)
Part: the principal investigator


(12) Natural Science Foundation of China (NSFC No. 50103007) (2002.1-2004.12)
“In-situ microfibrillar reinforced blend based thermoplastics: preparation, microstructure and properties” (240,000 RMB)
Part: the principal investigators
And other cooperative research projects with companies (not referred here for the sake of brevity)


Research Interests

Polymer Processing technology, molding and machine
Morphology, structure, and properties of polymers
Manipulation of morphology and structure of polymers during processing
• HONORS AND AWARDS
“Academic and Technical Leaders of Sichuan Province”, Sichuan Province, 2011
“Natural Science Award of Ministry of Education (Rank 1)”, Ministry of Education of China, 2011
“Progress in Science and Technology Award of Ministry of Education (Rank 1)”, Ministry of Education of China, 2010
“Award for Distinguished Scientific Youths”, Natural Science Foundation of China, 2009
“Award for Distinguished Scientific Youths of Sichuan Province”, Government of Sichuan Province, 2007
“Ying Tung Fok Education Foundation Award”, Ministry of Education of China, 2006
“New Century Excellent Talents in University (NCET)”, Ministry of Education of China, 2005
“Outstanding Youth Foundation of Sichuan”, Sichuan Province, 2004
“Sichuan Scientific Progress Award”, Government of Sichuan Province, 2003
“Guanghua Award for PHD students”, Sichuan University, 2000
“Guanghua Award for Master students”, Sichuan University, 1996

Social activities
Editorial member of Journal of Engineering Plastic Processing and Applications;
Executive member of China Plastics Processing Industry Association
Executive member of Sichuan Youth Association for Science and Technology
Vice-dean of College of Polymer Science and Engineering (in charge of scientific research), Sichuan University, Chengdu, China.

SELECTED RESEARCH PAPERS

About 170 peer-reviewed papers, of which about 140 papers are indexed by SCI database.
(*the corresponding author(s))

 

2014

 

[1] Hua-Dong Huang; Peng-Gang Ren; Jia-Zhuang Xu; Ling Xu; Gan-Ji Zhong; Benjamin S. Hsiao; and Zhong-Ming Li*. "Improved barrier properties of poly (lactic acid) with randomly dispersed graphene oxide nanosheets". J. Membr. Sci. 2014, 10.1016/j.memsci.2014.04.009.

 

[2] Huan Xu, Lan Xie, Xin Jiang, Minna Hakkarainen, Jing-Bin Chen, Gan-Ji Zhong*, and Zhong-Ming Li*. Structural Basis for Unique Hierarchical Cylindrites Induced by Ultrahigh Shear Gradient in Single Natural Fiber Reinforced Poly(lactic acid) Green Composites. Biomacromolecules, DOI: 10.1021/bm500100z.

 

[3] Ding-Yang Yan, Huan Pang, Ling Xu, Yu Bao, Peng-Gang Ren, Jun Lei, Zhong-Ming Li*. Electromagnetic interference shielding of segregated polymer composite with an ultralow loading of in-situ thermally reduced graphene oxide. Nanotechnology 2014, 25, 145705-145710.

 

[4] Chen Y-H, Huang Z-Y, Li Z-M, Tang J-H, Hsiao BS. Simultaneous improvement of strength and toughness in fiber reinforced isotactic polypropylene composites by shear flow and a [small beta]-nucleating agent. RSC Advances. 2014;4:14766-76.

 

[5] Lan Xie , Huan Xu, Ze-Pu Wang, Xu-Juan Li, Jing-Bin Chen, Zi-Jing Zhang, Hua-Mo Yin, Gan-Ji Zhong, Jun Lei, Zhong-Ming Li, “Toward faster degradation for natural fiber reinforced poly(lactic acid) biocomposites by enhancing the hydrolysis-induced surface erosion”, J Polym Res. , 2014, 21-357.

 

[6] Ling Xu, Yan-Fei Huang, Jia-Zhuang Xu, Xu Ji, Zhong-Ming Li. Improved performance balance of polyethylene by simultaneously forming oriented crystals and blending ultrahigh-molecular-weight polyethylene. RSC Advances 2014, 4: 1512-1520.

 

[7] Hong-Ji Duan, Hai-Quan Kang, Wei-Qin Zhang, Xu Ji, Zhong-Ming Li*, Jian-Hua Tang*, “Core–shell structure design of pulverized expandable graphite particles and their application in flame-retardant rigid polyurethane foams” Polymer International, Polymer International, 2014, 63, (1), 72–83.

 

[8] Jin Zhang, Hua-Mo Yin, Benjamin S. Hsiao, Gan-Ji Zhong, Zhong-Ming Li*. “Biodegradable poly(lactic acid)/hydroxyl apatite 3D porous scaffolds using high-pressure molding and salt leaching” Journal of Materials Science, 2014, 49, (4), 1648-1658

 

[9] Ling Xu, Yan-Fei Huang, Jia-Zhuang Xu, Xu Ji, Zhong-Ming Li*. Improved performance balance of polyethylene by simultaneously forming oriented crystals and blending ultrahigh-molecular-weight polyethylene. RSC Adv., 2014, 4, 1512-1520.

 

[10] Chun-Yan Liu, Gan-Ji Zhong, Hua-Dong Huang, Zhong-Ming Li*. Phase assembly-induced transition of three dimensional nanofibril- to sheet-networks in porous cellulose with tunable properties. Cellulose, 2014, 21, (1), 383-394

 

[11] Yan-Fei Huang, Jia-Zhuang Xu, Jun-Yi Xu, Zheng-Chi Zhang, Benjamin S. Hsiao, Ling Xu* and Zhong-Ming Li*. Self-Reinforced Polyethylene Blend for Artificial Joint Application. Journal of Materials Chemistry B. 2014, 2, 971-980

 

[12] Huan Xu, Lan Xie, Xin Jiang, Xu-Juan Li, Yue Li, Zi-Jing Zhang, Gan-Ji Zhong*, Zhong-Ming Li*. Towards Stronger Transcrystalline Layers in Poly(L-lactic acid)/Natural Fiber Biocomposites with the Aid of an Accelerator of Chain Mobility. Journal of Physical Chemistry B, 2014, 118 (3), 812–823 .

 

[13] Huan Pang, Yu Bao, Shu-Gui Yang, Chen Chen, Wei-Qin Zhang, Jun Chen, Xu Ji, Jun Lei*. Preparation and Properties of Carbon Nanotube/Binary-Polymer Composites with a Double-Segregated Structure J. Appl. Polym. Sci., 2014, 131, (2), 39789-39796

 

[14] Jia-Zhuang Xu, Gan-Ji Zhong, Qiang Fu, Benjamin S. Hsiao, Zhong-Ming Li*. "Low-dimensional Carbonaceous Nanofillers Induced Polymer Crystallization". Prog. Polym. Sci. 2014, 39(3), 555-593.

 

[15] Jing-Bin Chen, Jia-Zhuang Xu, Huan Pan, , g, Gan-Ji Zhong*, Ling Xu, Hu Tang, Jian-Hua Tang, Zhong-Ming Li*, “Crystallization of isotactic polypropylene inside dense networks of carbon nanofillers” Journal of Applied Polymer Science, 2014, 131, (6), 39505-39514

 

2013 

 

[1] Huan Pang, Yu Bao, Ling Xu, Ding-Xiang Yan, Wei-Qin Zhang, a Jian-Hua Wang and Zhong-Ming Li*. “Double-segregated carbon nanotube–polymer conductive composites as candidates for liquid sensing materials”, J. Mater. Chem. A, 2013,1, 4177-4181

 

[2] Huan Pang, Qian-Ying Chen; Yu Bao; Ding-Xiang Yan; Yi-Chuan Zhang, Jing-Bing Chen; Zhong-Ming Li*, “Temperature resistivity behaviour in carbon nanotube/ultrahigh molecular weight polyethylene composites with segregated and double percolated structure”, Plastics, Rubber and Composites, 2013, 42, 2, 59-65(7)

 

[3] Hai-Long Li, Wei-Ming Zhou, You-Xin Ji, Zhi-Hua Hong, Bing Miao, Xiang-Yang Li, Jing Zhang, Ze-Ming Qi, Xiao Wang, Liang-Bin Li*, Zhong-Ming Li*, “Spatial distribution of crystal orientation in neck propagation: An in-situ microscopic infrared imaging study on polyethylene”, Polymer, 2013, 54, 2, 972–979

 

[4] Fang-Li Lou, Yi Xu, Huan Pang, Yan-Hui Chen, Jia-Zhuang Xu, Zhong-Ming Li, Ai Lu, “Non-isothermal crystalliztion kinetics of poly(phenylene sulfide) with low crosslinking levels”, Chinese Journal of Polymer Science, 2013, 31, 3, 462-470

 

[5] Qian-Ying Chen, Jing Gao, Kun Dai, Huan Pang, Jia-Zhuang Xu, Jian-Hua Tang, Zhong-Ming Li*, “Nonlinear current-voltage characteristics of conductive polyethylene composites with carbon black filled pet microfibrils”, Chinese Journal of Polymer Science, 2013, 31, 2, 211-217

 

[6] Ding-Xiang Yan, Hua-Dong Huang, Jie-Feng Gao, Kun Dai, Wei-Qin Zhang*, Zhong-Ming Li*, “A Conductive Carbon Nanotube-Polymer Composite Based on a Co-continuous Blend”, Journal of Macromolecular Science, Part B: Physics, 2013, 52, 1, 167-177

 

[7] Zhang-Yong Huang, Yan-Hui Chen, Jian-Hua Tang*, Zhong-Ming Li*, “Hierarchic Structure and Mechanical Property of Short Glass Fiber/Isotactic Polypropylene Composites Containing β-Nucleation Agent”, Polymer-Plastics Technology and Engineering, 2013, 52, 1, 80-89

 

[8] Yu Bao, Ling Xu, Huan Pang, Ding-Xiang Yan, Chen Chen*, Wei-Qin Zhang, Jian-Hua Tang, Zhong-Ming Li*, “Preparation and properties of carbon black/polymer composites with segregated and double-percolated network structures” J Mater Sci, 2013, 48: 4892–4898

 

[9] Yan Wang, Jia-Zhuang Xu, Yan-Hui Chen, Kai Qiao, Ling Xu, Xu Ji, Zhong-Ming Li *, and Benjamin S. Hsiao, “Crystalline Structure Changes in Preoriented Metallocene-Based Isotactic Polypropylene upon Annealing” J. Phys. Chem. B, 2013, 117 (23), 7113–7122

 

[10] Jin Zhang, Ding-Xiang Yan, Jun Lei, Jia-Zhuang Xu, Benjamin S. Hsiao, Zhong-Ming Li*, ''Ultraporous poly(lactic acid) scaffolds with improved mechanical performance using high-pressure molding and salt leaching” Journal of Applied Polymer Science, 2013, 130, 5, 3509-3520

 

[11] Huan Pang, Ying-Ying Piao, Ye-Qiang Tan, Guang-Yu Jiang, Jian-Hua Wang, Zhong-Ming Li*, “Thermoelectric behaviour of segregated conductive polymer composites with hybrid fillers of carbon nanotube and bismuth telluride” Materials Letters, 2013, 107 (15), 150–153

 

[12] Zhengchi Zhang, Jun Lei*, Yanhui Chen, Jun Chen, Xu Ji, Jianhua Tang, and Zhong-Ming Li*, “Tailored Structure and Properties of Injection-Molded Atactic Polypropylene/Isotactic Polypropylene Blend” ACS Sustainable Chem. Eng., 2013, 1, 8, 937-949

 

[13] Hua-Dong Huang, Jia-Zhuang Xu, Ying Fan, Ling Xu, and Zhong-Ming Li*, “Poly (L-lactic acid) Crystallization in a Confined Space Containing Graphene Oxide Nanosheets” J. Phys. Chem. B, 2013, 117, 36, 10641-10651

 

[14] Jin Zhang, Hua-Mo Yin, Chen Chen, Benjamin S. Hsiao, Gui-Ping Yuan, Zhong-Ming Li*, “High-pressure crystallization of poly(lactic acid) with and without N2 atmosphere protection” J Mater Sci, 2013, 48, 21:7374–7383

 

[15] Huan Pang, Ying-Ying Piao, Ling Xu, Yu Bao, Cheng-Hua Cui, Qiang Fu, Zhong-Ming Li*. “Tunable liquid sensing performance of conducting carbon nanotube–polyethylene composites with a porous segregated structure” RSC Adv., 2013, 3, 19802-19806

 

[16] Yan-Hui Chen, Gan-Ji Zhong, Benjamin S. Hsiao, Zhong-Ming Li*. “Structure evolution upon uniaxial drawing skin- and core-layers of injection-molded isotactic polypropylene by in situ synchrotron X-ray scattering” Journal of Polymer Science Part B: Polymer Physics, 2013, 51, 22, 1618-1631

 

[17] Yuan-Ying Liang, Jia-Zhuang Xu, Xiang-Yang Liu, Gan-Ji Zhong*, Zhong-Ming Li*. Role of surface chemical groups on carbon nanotubes in nucleation for polymer crystallization: Interfacial interaction and steric effect. Polymer, 2013, 54,  6479-6488.

 

[18] Yu Bao, Huan Pang, Ling Xu, Cheng-Hua Cui, Xin Jiang, Ding-Xiang Yan and Zhong-Ming Li*. Influence of surface polarity of carbon nanotubes on electric field induced aligned conductive network formation in a polymer melt. RSC Adv., 2013, 3, 24185.

 

[19] Huan Pang, Ying-Ying Piao, Cheng-Hua Cui, Yu Bao, Jun Lei*, "Preparation and performance of segregated polymer composites with hybrid fillers of octadecylamine functionalized graphene and carbon nanotubes". Gui-Ping Yuan, Chao-Liang Zhang. J. Polym. Res. 2013, 20: 304.

 

[20] Zhang-Yong Huang, Yan-Hui Chen, Jian-Hua Tang, Zhong-Ming Li*. “Hierarchic structure and mechanical property of short glass fiber/isotactic polypropylene composites containing β-nucleation agent”, Polymer-Plastics Technology and Engineering, 2013, 51(1): 80-89

 

 2012

 

[1] Yi-Chuan Zhang, Kun Dai, Huan Pang, Qiao-Ji Luo, Zhong-Ming Li*, Wei-Qin Zhang. “Temperature and Time Dependence of Electrical Resistivity in an Anisotropically Conductive Polymer Composite with In Situ Conductive Microfibrils”, Journal of Applied Polymer Science 2012, 124(3): 1808–1814.

 

[2] Yi-Chuan Zhang, Huan Pang, Kun Dai, Yan-Fei Huang, Peng-Gang Ren, Chen Chen, Zhong-Ming Li*. “Conductive network formation during annealing of an oriented polyethylene-based composite”, Journal of Materials Science 2012, 47(8): 3713-3719.

 

[3] Ling Xu, Chen Chen*, Gan-Ji Zhong, Jun Lei, Jia-Zhuang Xu, Benjamin S. Hsiao, Zhong-Ming Li*. “Tuning the Superstructure of Ultrahigh-Molecular-Weight Polyethylene / Low-Molecular-Weight Polyethylene Blend for Artificial Joint Application”, ACS Applied Materials & Interfaces 2012, 4(3): 1521-1529.

 

[4] Jia-Zhuang Xu, Yuan-Ying Liang, Gan-Ji Zhong, Hai-Long Li, Chen Chen, Liang-Bin Li, Zhong-Ming Li*. “Graphene Oxide Nanosheet Induced Intrachain Conformational Ordering in a Semicrystalline Polymer”, Journal of Physical Chemistry Letters 2012, 3(4): 530-535.

 

[5] Hua-Dong Huang, Peng-Gang Ren, Jun Chen, Wei-Qin Zhang, Xu Ji, Zhong-Ming Li*. “High barrier graphene oxide nanosheet/Poly(vinyl alcohol) nanocomposite films”, Journal of Membrane Science 2012, 409: 156-163.

 

[6] Yan-Hui Chen, Zheng-Chi Zhang, Jian-Hua Tang, Zhong-Ming Li*, Benjamin S. Hsiao. “Structure and Properties of Isotactic Polypropylene with Two-Scale Reinforcement”, Polymers for Advanced Technologies, 2012, 12(23): 1580-1589.

 

[7] Yan Wang, Chen Chen, Jia-Zhuang Xu, Jun Lei, Yimin Mao, Zhong-Ming Li*, and Benjamin S. Hsiao. “Suppressing of γ-Crystal Formation in Metallocene-Based Isotactic Polypropylene during Isothermal Crystallization under Shear Flow”, The Journal of Physical Chemistry B 2012, 116(16): 5056-5063.

 

[8] Huan Pang, Gan-ji Zhong, Jia-zhuang Xu, Ding-xiang Yan, Xu Ji, Zhong-ming Li* and Chen Chen*. “Non-isothermal crystallization of ethylene–vinyl acetate copolymer containing a high weight fraction of graphene nanosheets and carbon nanotubes”, Chinese Journal of Polymer Science D, 2012, 30(6): 879-892

 

[9] Huan Pang, Chen Chen, Yu Bao, Jun Chen, Xu Ji, Jun Lei, Zhong-Ming Li*. “Electrically conductive carbon nanotube/ultrahigh molecular weight polyethylene composites with segregated and double percolated structure”, Materials Letters 2012, 79(15): 96-99.

 

[10] Huan Xu, Chun-Yan Liu, Chen Chen, Benjamin S. Hsiao, Gan-Ji Zhong, Zhong-Ming Li*. “Easy alignment and effective nucleation activity of ramie fibers in injection molded poly(lactic acid) biocomposites”, Biopolymers 2012, 97(10): 825-839.

 

[11] Peng-Gang Ren, Ying-Ying Di, Qian Zhang, Lan Li, Huan Pang, Zhong-Ming Li*. “Composites of Ultrahigh-Molecular-Weight Polyethylene with Graphene Sheets and/or MWCNTs with Segregated Network Structure: Preparation and Properties”, Macromolecular Materials and Engineering 2012, 297: 437–443.

 

[12] Dingxiang Yan, Ling Xu, Chen Chen, Jianhua Tang, Xu Ji, Zhong-Ming Li*. “Enhanced mechanical and thermal properties of rigid polyurethane foam composites containing graphene nanosheets and carbon nanotubes”, Polymer International 2012, 61(7), 1107-1114.

 

[13] Huan Pang, Gan-Ji Zhong, Yan Wang, Jia-Zhuang Xu, Zhong-Ming Li*, Jun Lei, Chen Chen, Xu Ji. “In-situ synchrotron x-ray scattering study on isothermal crystallization of ethylene-vinyl acetate copolymers containing a high weight fraction of carbon nanotubes and graphene nanosheets”, Journal of Polymer Research 2012, 19(3): 9837.

 

[14] Lan-Lan Ge, Hong-Ji Duan, Xiao-Guang Zhang, Chen Chen, Jian-Hua Tang, Wei-Qin Zhang, Ling Ye, Zhong-Ming Li*. “Synergistic effect of ammonium polyphosphate and expandable graphite on flame-retardant properties of acrylonitrile-butadiene-styrene”, Journal of Applied Polymer Science 2012, 126(4): 1337-1343.

 

[15] Hao-Ran Yang, Gan-Ji Zhong, Jun Lei*, Xu Ji, Zhong-Ming Li*. “Morphology and Crystallization Behavior of Compatibilized Isotactic Polypropylene/Poly(butylenes terephthalate) Blends under Shear Flow”, Polymer-Plastics Technology and Engineering 2012, 51(5): 507-513.

 

[16] Ding-Xiang Yan, Peng-Gang Ren, Pang Huan, Ming-Bo Yang, Zhong-Ming Li*. “Efficient electromagnetic interference shielding of lightweight graphene/polystyrene composite”, Journal of Materials Chemistry 2012, 22:, 18772-18774.

 

[17] Dai Kun, Yi-Chuan Zhang, Jian-Hua Tang, Ji Xu, Zhong-Ming Li*, Wei-Qin Zhang. “Anomalous attenuation and structural origin of positive temperature coefficient (PTC) effect in a carbon black (CB)/poly(ethylene terephthalate) (PET)/polyethylene (PE) electrically conductive microfibrillar polymer composite with a preferential CB distribution”, Journal Of Applied Polymer Science 2012, 125(1): 561-570.

 

[18] Dai Kun, Yi-Chuan Zhang, Jian-Hua Tang, Ji Xu, Zhong-Ming Li*, “Organic liquid stimuli-response behaviors of electrically conductive microfibrillar composite with a selective conductive component distribution”, Journal Of Applied Polymer Science 2012,124(6): 4464-4474.

 

[19] Dai Kun, Ji Xu, Zhi-Dong Xiang, Wei-Qin Zhang, Jian-Hua Tang, Zhong-Ming Li*. “Electrical Properties of an Ultralight Conductive Carbon Nanotube/Polymer Composite Foam Upon Compression”, Polymer-Plastics Technology and Engineering 2012, 51(3), 304-306.

 

[20] Huan Pang, Chen Chen, Jun Lei, Zhong-Ming Li*. “Segregated conductive ultrahigh-molecular-weight polyethylene composites containing high-density polyethylene as carrier polymer of graphene nanosheets”, Polymer Plastics Technology and Engineering 2012, 51(4): 1483-1486.

 

[21] Huan Pang, Ding-Xiang Yan, Yu Bao, Jin-Bing Chen, Chen Chen, Zhong-Ming Li*. Super-tough conducting carbon nanotube/ ultrahigh-molecular-weight polyethylene composites with segregated and double-percolated structure, Journal of Materials Chemistry, 2012, 22, 23568

 

[22] Huan Pang, Chen Chen, Zhong-Ming Li*. “Influence of the compaction temperature on the electrical and mechanical properties of the segregated conductive ultrahigh molecular weight polyethylene/carbon nanotube composite”, Polymer Plastics Technology and Engineering, 2012, 51(15): 1530-1536

 

[23] Hao-Ran Yang, Jun Lei, Liangbin Li, Qiang Fu, Zhong-Ming Li*. “Formation of Interlinked Shish-Kebabs in Injection-Molded Polyethylene under the Coexistence of Lightly Cross-Linked Chain Network and Oscillation Shear Flow”, Macromolecules 2012, 45 (16), pp 6600–6610.

 

[24] Yi-Chuan Zhang, Ding Zheng, Huan Pang, Jian-Hua Tang, Zhong-Ming Li*. The effect of molecular chain polarity on electric field-induced aligned conductive carbon nanotube network formation in polymer melt, Composites Science and Technology. 2012, 72(15): 1875-1881.

 

[25] Hu Tang, Jing-Bin Chen, Yan Wang, Jia-Zhuang Xu, Benjamin S. Hsiao, Gan-Ji Zhong*and Zhong-Ming Li*. Shear Flow and Carbon Nanotubes Synergistically Induced Nonisothermal Crystallization of Poly(lactic acid) and Its Application in Injection Molding, Biomacromolecules 2012, 13(11): 3858–3867.

 

[26] Jin Zhang, Ding-Xiang Yan, Jia-Zhuang Xu, Hua-Dong Huang, Jun Lei, and Zhong-Ming Li*. “Highly Crystallized Poly (lactic acid) under High Pressure”, AIP advances 2012, 2, 042159.

 

[27] Yue Li, Jia-Zhuang Xu, Lei Zhu, Gan-Ji Zhong, Zhong-Ming Li*. “Role of Ion-Dipole Interactions in nucleation of Gamma Poly(vinylidene fluoride) in the Presence of Graphene Oxide during melt crystallization”, The Journal of Physical Chemistry B 2012, 116 (51), 14951-14906.

 

[28] Huan Xu, Gan-Ji Zhong*, Qiang Fu, Jun Lei, Wei Jiang,Benjamin S. Hsiao, and Zhong-Ming Li*. “Formation of Shish-Kebabs in Injection-Molded Poly(Llactic acid) by Application of an Intense Flow Field, ACS Applied Materials & Interfaces 2012, 4, 6774-6784.

 

2011

 

[1] Gan-Ji Zhong, Ke Wang, Li-Feng Zhang, Zhong-Ming Li, Hao Fong, Le, i Zhu. Nanodroplet formation and exclusive homogenously nucleated crystallization in confined electrospun immiscible polymer blend fibers of polystyrene and poly(ethylene oxide). Polymer 2011, 52 (24): 5397~5402.

 

[2] Xiao-Guang Zhang, Lan-Lan Ge, Wei-Qin Zhang, Jian-Hua Tang, Ling Ye, Zhong-Ming Li*. Expandable graphite-methyl methacrylate-acrylic acid copolymer composite particles as a flame retardant of rigid pol, , , , yurethane foam. Journal of Applied Polymer Science 2011, 122 (2): 932-941.

 

[3] Jie-Feng Gao, Ding-Xiang Yan, Hua-Dong Huang, Xiang-Bu Zeng, Wei-Qin Zhang, Zhong-Ming Li. Tunable positive liquid coefficient of an anisotropically conductive carbon nanotube-polymer composite. Journal of Polymer Research 2011, 18 (6): 2239~2243.

 

[4] Yan-Hui Chen, Gan-Ji Zhong, Jun Lei, Zhong-Ming Li* and Benjamin S. Hsiao. In-situ synchrotron x-ray scattering study on isotactic polypropylene crystallization under the coexistence of shear flow and carbon nanotubes Macromolecules 2011,44 (20): 8080~8092.

 

[5] Peng-Gang Ren, Ding-Xiang Yan, Tao Chen, Bao-Qing Zeng, Zhong-Ming Li*. Improved properties of highly oriented graphene/polymer nanocomposites. Journal of Applied Polymer Science 2011, 121 (6): 3167~3174.

 

[6] Xin Yi, Chen Chen, Gan-Ji Zhong, Ling Xu, Jian-Hua Tang, Xu Ji, Benjamin S. Hsiao, Zhong-Ming Li*.Suppressing the skin–core structure of injection-molded isotactic polypropylene via combination of an in situ microfibrillar network and an interfacial compatibilizer. The Journal of Physical Chemistry B 2011, 115(23): 7497-7504.

 

[7] Jia-Zhuang Xu, Chen Chen, Yan Wang, Hu Tang, Zhong-Ming Li*, Benjamin S. Hsiao. Graphene nanosheets and shear flow induced crystallization in isotactic polypropylene nanocomposites. Macromolecules 2011, 44 (8): 2808~2818.

 

[8] Ding-Xiang Yan, Kun Dai, Zhi-Dong Xiang, Zhong-Ming Li*, Xu Ji*, Wei-Qin Zhang. Electrical conductivity and major mechanical and thermal properties of carbon nanotube-filled polyurethane foams. Journal of Applied Polymer Science 2011, 120 (5): 3014~3019.

 

[9] Ling Xu, Gan-Ji Zhong, Xu Ji, Zhong-Ming Li*. Crystallization behavior and morphology of one-step reaction compatibilized microfibrillar reinforced isotactic polypropylene/poly(ethylene terephthalate) (iPP/PET) blends. Chinese Journal of Polymer Science 2011, 29 (5): 540~551.

 

[10] Xiao Hu, Jia-Zhuang Xu, Gan-Ji Zhong, Xiang-Lin Luo, Zhong-Ming Li*. Shear induced crystallization of poly(L-lactide) and poly(ethylene glycol) (PLLA-PEG-PLLA) copolymers with different block length. Jounal of Polymer Research 2011, 18 (4): 675~680.

 

[11] Huan Pang, Chen Chen, Yi-Chuan Zhang, Peng-Gang Ren, Ding-Xiang Yan, Zhong-Ming Li*. The effect of electric field, annealing temperature and filler loading on the percolation threshold of polystyrene containing carbon nanotubes and graphene nanosheets. Carbon 2011, 49: 1980~1988.

 

[12] Peng-Gang Ren, Ding-Xiang Yan, Xu Ji, Tao Chen, Zhong-Ming Li*.Temperature dependence of graphene oxide reduced by hydrazine hydrate. Nanotechnology 2011, 22 (5): 055705.

 

[13] Gan-Ji Zhong, Zhan-Chun Chen, Zhong-Ming Li*, Kai-Zhi Shen, Liang-Bin Li, Benjamin S. Hsiao. Shear enhanced crystallization and tensile behaviors of oscillation shear injection molded poly (ethylene terephthalate). Journal of Macromolecular Science, Part B: Physics 2011, 50 (2): 383~397.

 

2010

 

[1] Yu-Ling Wang, Xiao Hu, Hai Li, Xu Ji, Zhong-Ming Li*. Polyamide-6/poly(lactic acid) blends compatibilized by the maleic anhydride grafted polyethylene-octene elastomer. Polymer-Plastics Technology and Engineering 2010, 49 (12): 1241~1246.

 

[2] Jie-Feng Gao, Ding-Xiang Yan, Bo Yuan, Hua-Don Huang, Zhong-Ming Li*. Large-scale fabrication and electrical properties of an anisotropic conductive polymer composite utilizing preferable location of carbon nanotubes in a polymer blend. Composites Science and Technology 2010, 70 (13): 1973~1979.

 

[3] Huan Pang, Tao Chen, Gang-Ming Zhang, Bao-Qing Zeng, Zhong-Ming Li*. An electrically conducting polymer/graphene composite with a very low percolation threshold. Materials Letters 2010, 64 (20): 2226~2229.

 

[4] Yan-Hui Chen, Yi-Min Mao, Zhong-Ming Li*, Benjamin S. Hsiao. Competitive growth of alpha- and beta-crystals in beta-nucleated isotactic polypropylene under shear flow. Macromolecules 2010, 43 (16): 6760~6771.

 

[5] Huan Pang, Yi-Chuan Zhang, Tao Chen, Bao-Qing Zeng, Zhong-Ming Li*. Tunable positive temperature coefficient of resistivity in an electrically conducting polymer/graphene composite. Applied Physics Letters 2010, 96 (25): 19071~190713.

 

[6] Jia-Zhuang Xu, Tao Chen, Chuan-Lu Yang, Zhong-Ming Li*, Yi-Min Mao, Bao-Qing Zeng, Benjamin S. Hsiao. Isothermal crystallization of poly(l-lactide) induced by graphene nanosheets and carbon nanotubes: a comparative study. Macromolecules 2010, 43 (11): 5000~5008.

 

[7] Yan Wang, Ji-Lin Pan, Yi-Min Mao, Zhong-Ming Li*, Liangbin Li, Benjamin S. Hsiao. Spatial distribution of γ-crystals in metallocene-made isotactic polypropylene crystallized under combined thermal and flow fields. Journal of Physical Chemistry B 2010, 114 (20): 6806~6816.

 

[8] Yi-Chuan Zhang, Kun Dai, Jian-Hua Tang, Xu Ji, Zhong-Ming Li. Anisotropically conductive polymer composites with a selective distribution of carbon black in an in situ microfibrillar reinforced blend. Materials Letters 2010, 64 (13): 1430~1432.

 

[9] Xu-Juan Li, Gan-Ji Zhong, Zhong-Ming Li*. Non-isothermal crystallization of poly(l-lactide) under quiescent and steady shear conditions. Chinese Journal of Polymer Science 2010, 28 (3): 357~366.

 

[10] Xin Yi, Ling Xu, Yu-Ling Wang, Gan-Ji Zhong, Xu Ji, Li, Zhong-Ming Li*. Morphology and properties of isotactic polypropylene/poly(ethylene terephthalate) in situ microfibrillar reinforced blends: Influence of viscosity ratio. European Polymer Journal 2010, 46 (4): 719~730.

 

[11] Bo Li, Yi-Chuan Zhang, Zhong-Ming Li*, Sha-Ni Li, Xiao-Na Zhang. Easy fabrication and resistivity-temperature behavior of an anisotropically conductive carbon nanotube-polymer composite. Journal of Physical Chemistry B 2010, 114 (2): 689~696.

 

2009

 

[1] Ri-Chao Zhang, Ai Lu, Yi Xu, Min Min, Jing-Qiong Xia, Jian-Hua Zhou, Yi-Gang Huang, Zhong-Yuan Lu, Zhong-Ming Li*. Equilibrium melting temperature and spherulitic growth rate of poly(phenylene sulfide). European Polymer Journal 2009, 45 (10): 2867~2872.

 

[2] Hong-Sheng Xu, Xiujuan J. Dai, Peter R. Lamb, Zhong-Ming Li*. Poly(L-lactide) crystallization induced by multiwall carbon nanotubes at very low loading. Journal of Polymer Science Part B-Polymer Physics 2009, 47 (27): 2341~2352.

 

[3] Jie-Feng Gao, Zhong-Ming Li*, Shun Peng, Ding-Xiang Yan. Temperature-resistivity behaviour of CNTs/UHMWPE composites with a two-dimensional conductive network. Polyme, r-Plastics Technology and Engineering 2009, 48 (4): 478~481.

 

[4] Yan-Hui Chen, Gan-Ji Zhong, Yan Wang, Zhong-Ming Li* , Liang-Bin Li. Unusual tuning of mechanical properties of isotactic polypropylene using counteraction of shear flow and beta-nucleating agent on beta-form nucleation. Macromolecules 2009, 42 (12): 4343~4348.

 

[5] Jie-Feng Gao, Ding-Xiang Yan, Hua-Dong Huang, Kun Dai, Zhong-Ming Li*. Positive temperature coefficient and time-dependent resistivity of carbon nanotubes (CNTs)/ultrahigh molecular weight polyethylene (UHMWPE) composite. Journal of Applied Polymer Science 2009, 114 (2): 1002~1010.

 

[6] Xiao Hu, Hai-Ning An, Zhong-Ming Li*, Yong Geng, Liang-Bin Li, Chuan-Lu Yang. Origin of carbon nanotubes induced Poly(L-Lactide) crystallization: surface induced conformational order. Macromolecules 2009, 42 (8): 3215~3218.

 

[7] Ling Ye, Xian-Yan Meng, Xu Ji, Zhong-Ming Li*, Jian-Hua Tang. Synthesis and characterization of expandable graphite-poly(methyl methacrylate) composite particles an, d their application to flame retardation of rigid polyurethane foams. Polymer Degradation and Stability 2009, 94 (6): 971~979.

 

[8] Yi Xu, Li-Ming Huang, Ri-Chao Zhang, Ai Lu, Zhong-Ming Li*, Jie Sun. Dependence of the avrami exponent on supercooling during nonisothermal crystallization of Poly(phenylene sulfide). Polymer-Plastics Technology and Engineering 2009, 48 (3): 324~326.

 

[9] Zhi-Dong Xiang, Tao Chen, Zhong-Ming Li*, Xiang-Cheng Bian. Negative temperature coefficient of resistivity in lightweight conductive carbon nanotube/polymer composites. Macromolecular Materials and Engineering 2009, 294 (2): 91~95.

 

[10] Ling Ye, Xian-Yan Meng, Xing-Mao Liu, Jian-Hua Tang, Zhong-MingLi*. Flame-retardant and mechanical properties of high-density rigid polyurethane foams filled with decabrominated dipheny ethane and expandable graphite. Journal of Applied Polymer Science 2009, 111 (5): 2372~2380.

 

[11] Xian-Yan Meng, Ling Ye, Xiao-Guang Zhang, Pei-Mei Tang, Jian-Hua Tang, Xu Ji, Zhong-Ming Li*. Effects of expandable graphite and ammonium polyphosphate on the flame-retardant and mechanical properties of rigid polyurethane foams. Journal of Applied Polymer Science 2009, 114 (2): 853~863.

 

2008

 

[1] Gan-Ji Zhong, Zhong-Ming Li*, Liang-Bin Li, Kai-Zhi Shen. Crystallization of oriented isotactic polypropylene (iPP) in the presence of in situ poly(ethylene terephthalate) (PET) microfibrils. Polymer 2008, 49 (19): 4271~4278.

 

[2] Bo Li, Xiang-Bin Xu, Zhong-Ming Li*, Yin-Chun Song. Manipulating the conductivity of carbon-black-filled immiscible polymer composites by insulating nanoparticles. Journal of Applied Polymer Science 2008, 110 (5): 3073~3079.

 

[3] Xu-Juan Li, Zhong-Ming Li*, Gan-Ji Zhong, Liang-Bin Li. Steady-shear-induced isothermal crystallization of poly(L-lactide) (PLLA). Journal of Macromolecular Science Part B-Physics 2008, 47 (3): 511~522.

 

[4] Ri-Chao Zhang, Yi Xu, Ai Lu, Ke-Mei Cheng, Yi-Gang Huang, Zhong-Ming Li*. Shear-induced crystallization of poly(phenylerte sulfide). Polymer 2008, 49 (10): 2604~2613.

 

[5] Bo Li, Zhong-Ming Li*, Xiang-Bin Xu. Electrically conductive carbon black/poly(ethylene terephthalate)/polyethylene microfibrillar composite: The influence of CaCO3 nanoparticles. Polymer-Plastics Technology and Engineering 2008, 47 (7): 726~732.

 

[6] Jie-Feng Gao, Zhong-Ming Li*, Qing-jie Meng, Qi Yang. CNTs/UHMWPE composites with a two-dimensional conductive network. Materials Letter 2008, 62 (20): 3530~3532.

 

[7] Chun-Hua Jiang, Xiang-Bin Xu, Zhong-Ming Li*. Application of in situ microfibrillization to recycling ultraviolet-aged poly(ethylene terephthalate) (PET) and high density polyethylene (HDPE). Journal of Macromolecular Science Part B-Physics 2008, 47 (1): 10~25.

 

[8] Ji-Lin Pan, Zhong-Ming Li*. Double-yielding behavior in injection-molded polycarbonate/high-density polyethylene/ethylene-vinyl acetate copolymer blends. Journal of Applied Polymer Science 2008, 108 (1): 287~294.

 

[9] Kun Dai, Zhong-Ming Li*, Xiang-Bin Xu. Electrically conductive in situ microfibrillar composite with a selective carbon black distribution: An unusual resistivity-temperature behavior upon cooling. Polymer 2008, 49 (4): 1037~1048.

 

[10] Xiang-Cheng Bian, Jian-Hua Tang, Zhong-Ming Li*. Flame retardancy of hollow glass microsphere/ rigid polyurethane foams in the presence of expandable graphite, Journal of Applied Polymer Science 2008, 109 (3): 1935~1943.

 

[11] Xiang-Cheng Bian, Jian-Hua Tang, Zhong-Ming Li*. Flame retardancy of whisker silicon oxide/rigid polyurethane foam composites with expandable graphite. Journal of Applied Polymer Science 2008, 110 (6): 3871~3879.

 

2007

 

[1] Gan-Ji Zhong, Zhong-Ming Li*, Liang-Bin Li, Eduardo Mendes. Crystalline morphology of isotactic polypropylene (iPP) in injection molded poly(ethylene terephthalate) (PET)/iPP microfibrillar blends. Polymer 2007, 48 (6): 1729~1740.

 

[2] Xiang-Bin Xu, Zhong-Ming Li*, Lei Shi, Xiang-Cheng Bian, Zhi-Dong Xiang. Ultralight Conductive Carbon-Nanotube- Polymer Composite. Small 2007, 3 (3): 408~411.

 

[3] Zhong-Ming Li*, Sha-Ni Li, Xiang-Bin Xu, Ming-Bo Yang, Rui Huang. Carbon nanotubes can enhance phase dispersion in polymer blends. Polymer-Plastics Technology and Engineering 2007, 46 (2):129~134.

 

[4] Hong-Sheng Xu, Zhong-Ming Li*, Song-Jie Wang, Ming-Bo Yang. Rheological behavior of PET/HDPE in situ microfibrillar blends: influence of microfibrils’ flexibility. Journal of Polymer Science, Part B: Polymer Physics 2007, 45 (10): 1205~1216.

 

[5] Xiao Hu, Hong-Sheng Xu, Zhong-Ming Li*. Morphology and properties of hollow glass beads filled poly(L-lactide) (PLLA). Macromolecular Materials and Engineering 2007, 292 (5): 646~654.

 

[6] Lei Shi, Zhong-Ming Li*. Morphology development of high-density rigid polyurethane foam upon compression by on-line scanning electronic microscope, Journal of Applied Polymer Science 2007, 105 (4): 2008~2011.

 

[7] Xiang-Cheng Bian, Jian-Huan Tang, Zhong-Ming Li*. Dependence of flame-retardant properties on density of expandable graphite filled rigid polyurethane foam. Journal of Applied Polymer Science 2007, 104 (5): 3347~3355.

 

[8] Hui Quan, Zhong-Ming Li*, Gan-Ji Zhong. The role of poly (phenylene sulfide) microfibrils in isothermal crystallization of isotactic polypropylene under shear. Journal of Macromolecular Science, Part B-Physics 2007, 46 (2): 285~294.

 

[9] Chun-Hua Jiang, Gan-Ji Zhong, Zhong-Ming Li*. Recyclability of in situ microfibrillar poly(ethylene terephthalate)/high-density polyethylene blends. Macromolecular Materials and Engineering 2007, 292 (3): 362~372.

 

[10] Kun Dai, Xiang-Bin Xu, Zhong-Ming Li*. Electrically conductive carbon black (CB) filled in-situ microfibrillar poly(ethylene terephthalate) (PET)/polyethylene (PE) composite with a selective CB distribution. Polymer 2007, 48 (3): 849~859.

 

[11] Bo Li, Xiang-Bin Xu, Zhong-Ming Li*. Role of microstructure of etectrically microfibrillar conductive polymer composite in its conductivity. Plastics Rubber and Composites 2007, 36 (7-8): 326~331.

 

2006

 

[1] Lei Shi, Zhong-Ming Li*, Wei Yang, Ming-Bo Yang, Qiu-Ming Zhou, Rui Huang. Properties and microstructure of expandable graphite particles pulverized with an ultra-high-speed mixer. Powder Technology 2006, 170 (1): 178~184.

 

[2] Sha-Ni Li, Bo Li, Zhong-Ming Li*, Qiang Fu, Kai-Zhi Shen. Morphological manipulation of carbon nanotube/polycarbonate/polyethylene composites by dynamic injection packing molding. Polymer 2006, 47 (13): 4497~4500.

 

[3] Ji-Lin Pan, Zhong-Ming Li*, Nan-Ying Ning, Shu-Ying Yang. Double yielding in injection-molded polycarbonate/polyethylene blends: composition dependence. Macromolecular Materials and Engineering 2006, 291 (5): 477~484.

 

[4] Lei Shi, Zhong-Ming Li*, Bang-Hu Xie, Jian-Hua Wang, Chun-Rong Tian, Ming-Bo Yang. Flame-retardant study of different sizes expandable graphite particles for high density rigid polyurethane foam. Polymer International 2006, 55 (8): 862~871.

 

[5] Zhong-Ming Li*, Hui Quan, Hong-Sheng Xu, Xiang-Bin Xu. Invited chapter. In-situ microfibrillar reinforced TP (thermoplastic polymer)-TP composites by slit die extrusion, hot stretching and quenching: fabrication, morphology and properties (An Invited Chapter), in Advaced Research in Polymer Science, p1~32, Transworld Research Network, 2006.SCI

 

[6] Gan-Ji Zhong, Liang-Bin Li, Eduardo Mendes, Dmytro Byelov, Qiang Fu, Zhong-Ming Li*. Suppression of skin-core structure in injection-molded polymer parts by in situ incorporation of a microfibrillar network. Macromolecules 2006, 39 (19): 6771~6775.

 

[7] Xiang-Bin Xu, Zhong-Ming Li*, Kun Dai, Ming-Bo Yang. Anomalous attenuation of the positive temperature coefficient of resistivity in a carbon-black-filled polymer composite with electrically conductive in situ microfibrils. Applied Physics Letters 2006, 89 (3): Art. No. 032105.

 

2005

 

[1] Zhong-Ming Li*, Ai Lu, ZY Lu, Kai-Zhi Shen, Liang-Bin Li, Ming-Bo Yang. In-situ microfibrillar PET/iPP blend via a slit die extrusion, hot stretching and quenching process: Influences of PET concentration on morphology and crystallization of iPP at a fixed hot stretc, hing ratio. Journal of Macromolecular Science-Physics 2005, B44 (2): 203~216.

 

[2] Xiang-Bin Xu, Zhong-Ming Li*, Ming-Bo Yang, Shu Jiang, Rui Huang. The role of the surface microstructure of the microfibrils in an electrically conductive microfibrillar carbon black/poly(ethylene terephthalate)/polyethylene composite. Carbon 2005, 43 (7): 1479~1487.

 

[3] Hui Quan, Zhong-Ming Li*, Ming-Bo Yang, Rui Huang. On transcrystallinity in semi-crystalline polymer composites. Composites Science and Technology 2005, 65 (7-8): 999~1021.

 

[4] Zhong-Ming Li*, Ming-Bo Yang, Rui Huang, Xue Li. Influence of matrix polymer on deformation and morphology of injection molded immiscible blends with high interfacial contact. Polymer-Plastics Technology and Engineering 2005, 44 (4): 583~602.

 

[5] Zhong-Ming Li*, Liang-Bin Li, Kai-Zhi Shen, Ming-Bo Yang, Rui Huang. In situ poly(ethylene terephthalate) microfibers- and shear-induced non-isothermal crystallization of isotactic polypropylene by on-line small angle X-ray scattering. Polymer 2005, 46 (17): 5358~5367.

 

[6] Zhong-Ming Li*, Sha-Ni Li, Ming-Bo Yang, Rui Huang. A novel approach to preparing carbon nanotube reinforced thermoplastic polymer composites. Carbon 2005, 43 (11): 2413~2416.

 

[7] Hui Quan, Gan-Ji Zhong, Zhong-Ming Li*, Ming-Bo Yang, Bang-Hu Xie, Hui Quan, Zhong-Ming Li, S.-Y. Yang. Morphology and mechanical properties of poly (phenylene sulfide)/isotactic polypropylene in situ microfibrillar blends. Polymer Engineering and Science 2005, 45 (9): 1303~1311.

 

[8] Hong-Sheng Xu, Zhong-Ming Li*, S.-Y. Yang, Ji-Lin Pan, Wei Yang, Ming-Bo Yang. Rheological behavior comparison between PET/HDPE and PC/HDPE microfibrillar blends. Polymer Engineering and Science 2005, 45 (9): 1231~1238.

 

[9] Lei Shi, Zhong-Ming Li*, Ming-Bo Yang, Bo Yin, Qiu-Ming Zhou, Chun-Hong Tian, Jian-Hua Wang. Expandable graphite for halogen-free flame-retardant of high-density rigid polyurethane foams. Polymer-Plastics Technology and Engineering 2005, 44 (7): 1323~1337.

 

[10] Hui Quan, Zhong-Ming Li*, Ming-Bo Yang, Zhong-Yuan Lu. Nonisothermal crystallization nucleation of in-situ fibrillar and spherical inclusions in poly (phenylene sulfide)/isotactic polypropylene blends. Journal of Macromolecular Science-Physics 2005, B44 (5): 761~778.

 

[11] Zhong-Ming Li*, Zhi-Qi Qian, Ming-Bo Yang, Wei Yang, Bang-Hu Xie, Rui Huang. Anisotropic micro structure-impact fracture behavior relationship of polycarbonate/polyethylene blends injection-molded at different temperatures. Polymer 2005, 46 (23): 10466~10477.

 

[12] Gan-Ji Zhong, Zhong-Ming Li*. Injection molding-induced morphology of thermoplastic polymer blends. Polymer Engineering and Science 2005, 45 (12): 1655~1665.

 

[13] Wei Yang, Zheng-Ying Liu, Gui-Fang Shan, Zhong-Ming Li, Bang-Hu Xie, Ming-Bo Yang*. Study on the melt flow behavior of glass bead filled polypropylene. Polymer Testing 2005, 24 (4): 490~497.

 

[14] Wei Yang, Wei Shi, Bang-Hu Xie, Yan-Hua Niu, Min Zuo, Zhong-Ming Li, Ming-Bo Yang. Essential work of fracture of glass bead filled low density polyethylene. Journal of Materials Science 2005, 40 (19): 5323~5326.

 

[15] Gui-Fang Shan, Wei Yang, Bang-Hu Xie, Zhong-Ming Li, Jian-Min Feng, Ming-Bo Yang*. Double yielding behaviors of Polyamide 6 and glass bead filled Polyamide 6 composites. Polymer Testing 2005, 24 (6): 704~711.

 

2004

 

[1] Zhong-Ming Li*, Xiang-Bin Xu, Ai Lu, Kai-Zhi Shen, Rui Huang, Ming-Bo Yang. Carbon black/poly(ethylene terephthalate)/polyethylene composite with electrically conductive in situ microfiber network. Carbon 2004, 42 (2): 428~432.

 

[2] Zhong-Ming Li*, Wei Yang, Bang-Hu Xie, Kai-Zhi Shen, Rui Huang, Ming-Bo Yang. Morphology and tensile strength prediction of in situ microfibrillar poly(ethylene terephthalate)/polyethylene blends fabricated via slit-die extrusion-hot stretching-quenching. Macromolecular Materials and Engineering 2004, 289 (4): 349~354.

 

[3] Zhong-Ming Li*, Liang-bin Li, Kai-Zhi Shen, Wei Yang, Rui Huang, Ming-Bo Yang. Transcrystalline morph, ology of an in situ microfibrillar poly(ethylene terephthalate)/poly(propylene) blend fabricated through a slit extrusion hot stretching-quenching process. Macromolecular Rapid Communications 2004, 25 (4): 553~558.

 

[4] Zhong-Ming Li*, Wei Yang, Rui Huang, Xiang-Ping Fang, XP; Ming-Bo Yang. Essential work of fracture parameters of in-situ microfibrillar poly(ethylene terephthalate)/polyethylene blend: Influences of blend composition. Macromolecular Materials and Engineering 2004, 289 (6): 426~433.

[5] Xiang-Bin Xu, Zhong-Ming Li*, Run-Ze Yu, Ai Lu, Ming-Bo Yang, Rui Huang. Formation of in situ CB/PET microfibers in CB/PET/PE composites by slit die extrusion and hot stretching. Macromolecular Materials and Engineering 2004, 289 (6): 568~575.

 

[6] Zhong-Ming Li*, Liang-Bin Li, Kai-Zhi Shen, Ming-Bo Yang, Rui Huang. In-situ microfibrillar PET/iPP blend via slit die extrusion, hot stretching, and quenching: Influence of hot stretch ratio on morphology, crystallization, and crystal structure of iPP at a fixed PET concentratior. Journal of Polymer Science Part B-Polymer Physics 2004, 42 (22): 4095~4106.

 

[7] Sha-Ni Li, Zhong-Ming Li*, Ming-Bo Yang, Zong-Qian Hu, Xiang-Bin Xu, Rui Huang. Carbon nanotubes induced nonisothermal crystallization of ethylene-vinyl acetate copolymer. Materials Letters 2004, , 58 (30): 3967~3970.

 

[8] Zhong-Ming Li*, Chen-Guang Huang, Wei Yang, Ming-Bo Yang, Rui Huang. Morphology dependent double yielding in injection molded polycarbonate/polyethylene blend. Macromolecular Materials and Engineering 2004, 289 (11): 1004~1011.

 

[9] Zhong-Ming Li*, Bang-Hu Xie, Rui Huang, Xiang-Ping Fang, Ming-Bo Yang. Influences of hot stretch ratio on essential work of fracture of in-situ microfibrillar poly(ethylene terephthalate)/polyethylene blends. Polymer Engineering and Science 2004, 44 (12): 2165~2173.

 

[10] Hong-Sheng Xu, Zhong-Ming Li*, Ji-Lin Pan, Ming-Bo Yang, Rui Huang. Morphology and rheological behaviors of polycarbonate/high density polyethylene in situ microfibrillar blends. Macromolecular Materials and Engineering 2004, 289 (12): 1087~1095.

 

[11] Zhong-Ming Li, Ming-Bo Yang*, Jian-Min Feng, Rui Huang. Deformation and morphology development of poly(ethylene terephthalate)/polyethylene and polycarbonate/ polyethylene blends with high interfacial contact during elongation. Polymer Engineering and Science 2004, 44 (8): 1561~1570.

 

[12] Zhong-Ming Li*, Wei Yang, Liang-Bin Li, Bang-Hu Xie, Rui Huang, Ming-Bo Yang, Jian-Min Feng. Morphology and nonisothermal crystallization of in-situ microfibrillar poly(ethylene terephthalate)/polypropylene blend fabricated through slit extrusion-hot stretch-quenching. Journal of Polymer Science, Part B: Polymer Physics 2004, 42 (3): 374~385.

 

[13] Zhong-Ming Li*, Wei Yang, Bang-Hu Xie, Rui Huang, Ming-Bo Yang, Jian-Min Feng. Influences of tensile rate on deformation and morphology of injection molded 15/85 (by weight) PC/PE and PET/PE blends with high interfacial contact. Journal of Macromolecular Science-Physics 2004, B43 (3): 519~542.

 

[14] Wei Yang, Zhong-Ming Li, Wei Shi, Bang-Hu Xie, Ming-Bo Yang*. A review: On auxetic materials. Journal of Materials Science-Physics 2004, 39 (10): 3269~3279.

 

[15] Zhong-Ming Li, Wei Yang, Shuying Yang, Rui Huang, Ming-Bo Yang*. Morphology-tensile behavior relationship in injection molded poly(ethylene terephthalate)/polyethylene and polycarbonate/ polyethylene blends (I): skin-core structure. Journal of Materials Science-Physics 2004, 39 (2): 413~431.

 

[16] Zhong-Ming Li, Bang-Hu Xie, Shu-Ying Yang, Rui Huang, Ming-Bo Yang*. Morphology-tensile behavior relationship in injection molded poly(ethylene terephthalate)/polyethylene and polycarbonate/ polyethylene blends (II): tensile behaviors. Journal of Materials Science-Physics 2004, 39 (2): 433~443.

 

[17] Wei Yang, Wei Shi, Zhong-Ming Li, Bang-Hu Xie, Jian-Min, Feng, Ming-Bo Yang*. Mechanical properties of glass bead-filled Linear Low Density Polyethylene. Journal of Elastomers and Plastics 2004, 36 (3): 251~265.

 

2003

 

[1] Xia Yang, Ming-Bo Yang*, Zhong-Ming Li, Jian-Min, Feng. The negative poisson's ratio effect of polyolefin blends. Acta Polymerica Sinica 2003, (2): 221~224.

 

[2] Wei Yang, Zhong-Ming Li, Bang-Hu Xie, Jian-Min Feng, Wei Shi, Ming-Bo Yang*. Stress-induced crystallization of biaxially oriented polypropylene. Journal of Applied Polymer Science 2003, 89 (3): 686~690.

 

[3] Bang-Hu Xie, Ming-Bo Yang,*, Si-Dong Li, Zhong-Ming Li, Jian-Min Feng. Studies on polyamide-6/polyolefin blend system compatibilized with epoxidized natural rubber. Journal of Applied Polymer Science 2003, 88 (2): 398~403.

 

[4] Zhong-Ming Li, Wei Yang, Bang-Hu Xie, S. Y. Yang, Ming-Bo Yang*, Jian-Min Feng, Rui Huang. Effects of compatibilization on the essential work of fracture parameters of in situ microfiber reinforced poly(ethylene terephtahalate)/polyethylene blend. Materials Research Bulletin 2003, 38 (14): 1867~1878.

 

[5] Zhong-Ming Li, Ming-Bo Yang*, Bang-Hu Xie, Jian-Min Feng, Rui Huang. In-situ microfiber reinforced composite based on PET and PE via slit die extrusion and hot stretching: Influences of hot stretching ratio on morphology and tensile properties at a fixed composition. Polymer Engineering and Science 2003, 43 (3): 615~628.

 

[6] Zhong-Ming Li, Ming-Bo Yang*, Rui Huang, Jian-Min Feng. Morphology and tensile properties of polycarbonate-polyethylene alloy in phase inversion region. Journal of Elastomers and Plastics 2003, 35(1): 15~27.

 

2002

 

[1] Zhong-Ming Li, Ming-Bo Yang*, Rui Huang, Ai Lu, Jian-Min Feng. In situ composite based on poly(ethylene terephthalate) polyamide and polyethylene with microfibres formed through extrusion and hot stretching. Journal of Materials Science & Technology 2002, 18(5): 419~422.

 

[2] Zhong-Ming Li, Ming-Bo Yang*, Ai Lu, Bang-Hu Xie, Jian-Min Feng, Rui Huang. On deformation of poly(ethylene terephthalate)/polyethylene and polycarbonate/polyethylene blends with high interfacial contact during elongation. Journal of Materials Science Letters 2002, 21 (14): 1063~1067.

 

[3] Zhong-Ming Li, Xiang-Rong Fu, Ming-Bo Yang*, Jian-Min Feng, Rui Huang. Influence of a novel compatibilizer with diallyl bisphenol A ether on morphology and some properties of polyethylene/polycarbonate alloy. Journal of Polymer Materials 2002, 19 (2): 195~200.

 

[4] Zhong-Ming Li, Ming-Bo Yang*, Ai Lu, Jian-Min Feng, Rui Huang. Tensile properties of poly(ethylene terephthalate) and polyethylene in-situ microfiber reinforced composite formed via slit die extrusion and hot-stretching. Materials Letters 2002, 56 (5): 756~762.

 

[5] Zhong-Ming Li, Ming-Bo Yang*, Jian-Min Feng, Wei Yang, Rui Huang. Morphology of in situ poly(ethylene terephthalate) polyethylene microfiber reinforced composite formed via slit-die extrusion and hot-stretching. Materials Research Bulletin 2002, 37 (13): 2185~2197.

 

[6] Zhong-Ming Li, Ming-Bo Yang*, Jian-Min Feng, Wei Yang, Rui Huang. Poly(ethylene terephthalate)/polyethylene composite based on in-situ microfiber formation." Polymer-Plastics Technology and Engineering 2002, 41(1): 19~32.

 

2001

 

[1] Zhong-Ming Li, Ming-Bo Yang*, Jian-Min Feng, Rui Huang. Phenomenon of fibre formation based toughening in PC/PE alloy compatibilized with diallyl bisphenol A ether grafted polyethylene. Acta Polymerica Sinica 2001, (1): 32~36.

 

[2] Zhong-Ming Li, Ming-Bo Yang*, Rui Huang, Mei-Dong Zhang, Jian-Min Feng. Bismaleimide resin modified with diallyl bisphenol A and diallyl p-phenyl diamine for resin transfer molding. Journal of Applied Polymer Science 2001, 80(12): 2245~2250.

 

[3] Zhong-Ming Li, Ming-Bo Yang*, Jian-Min Feng, Rui Huang. Fibre formation based toughening in polycarbonate/polyethylene alloy compatibilized with diallyl bisphenol A ether grafted polyethylene. Journal of Materials Science 2001, 36 (8): 2013~2018.

 

2000

 

[1] Zhong-Ming Li, Ming-Bo Yang*, Jian-Min Feng, Rui Huang. Droplet/fiber transitions in polyethylene/polycarbonate blend generated during drawing or impacting and observed through scanning electron microscope. Journal of Materials Science Letters 2000, 19(1): 23~25.

 

1999

 

[1] Ming-Bo Yang*, Zhong-Ming Li, Jian-Min Feng, Guang-Xian Li. The influences of the compatibilizer with diallyl bisphenol A ether on HDPE/PC blend system. Acta Polymerica Sinica 1999, (1): 113~117.

 

[2] Zhong-Ming Li, Ming Xu, Ai Lu, Mei-Dong Zhang, Rui Huang*. A diallyl bisphenol A ether and diallyl phenyl ether modified bismaleimide resin system for resin transfer molding. Journal o, f Applied Polymer Science 1999, 74(7): 1649~1653.