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雷军

  • 职 称: 教授
  • 所属学科: 材料加工工程
  • 导师情况: 博导
  • E-mail: leijun@scu.edu.cn
  • 个人主页: http://www.ppescu.com/show-25-150-1.html
经理简介

 雷军,男,1970年生。澳门威利斯人88038教授,博士生导师,美国Case Western Reserve University(凯斯西储大学)访问学者。讲授《聚合物成型模具》、《模具CAD/CAE》等课程。主要从事聚合物成型机械及模具设计、机械及模具CAD/CAE/CAM、聚合物结晶、聚合物形态结构调控及高性能化、功能性高分子复合材料(抗静电、导热)等方面的研究工作。主持自然科学基金面上项目3项,主持四川省科技厅应用基础项目2项,负责企业项目5项。另外还参与国家自然科学基金面上项目、青年基金、重大仪器专项共3项,以及科技部国家重点研发专项1项。研究成果在国际期刊上发表SCI收录论文共60余篇,包括Macromolecules论文5篇。获得国家授权发明专利10余项。

教育经历:

2001/09 - 2006/07,澳门威利斯人608cc,材料加工工程专业,博士

1992/09 - 1995/07,成都科技大学,塑料工程系,硕士

1988/09 - 1992/07,成都科技大学,塑料工程系,本科

工作经历:

1995/07 - 至今,澳门威利斯人608cc,高分子科学与工程学院,讲师-副教授-教授

2011/03 - 2015/04,贵州轮胎股份有限公司/澳门威利斯人608cc,博士后

2014/09 - 2015/08,美国凯斯西储大学(Case Western Reserve University),高分子科学与工程系,访问学者

研究领域:

1. 高分子材料成型成型模具、机械及CAD/CAE

2. 高分子结晶基础研究

3. 高分子材料定构加工

4. 功能高分子材料(抗静电、电磁屏蔽、低温加工高分子材料、热管理类包括导热高分子、辐射散热致冷等)

联系方式:

通讯地址:四川省成都市一环路南一段高分子科学与工程学院,邮编610065

Emailleijun@scu.edu.cn

课题组网页:http://www.ppescu.com

个人主页:http://www.ppescu.com/show-25-150-1.html

/info/1064/2043.htm

代表性论文:

[1] Ying-Nan Song, Ru-Jun Ma, Ling Xu, Hua-Dong Huang, Ding-Xiang Yan, Jia-Zhuang Xu , Gan-Ji Zhong, Jun Lei*, and Zhong-Ming Li*, Wearable Polyethylene/Polyamide Composite Fabric for Passive Human Body Cooling, ACS Appl. Mater. Interfaces, 2018.11.5, 10(48)41637-41644. (SCI影响因子8.097)

[2] Shu-Ya Yang, Yan-Fei Huang, Jun Lei*, Lei Zhu, Zhong-Ming Li*, Enhanced thermal conductivity of polyethylene/boron nitride multilayer sheets through annealing, Composites Part A: Applied Science and Manufacturing, 2018, 104, 135-143. (SCI影响因子4.514)

[3] Shu-Gui Yang, Yan-Hui Chen, Bowen Deng, Jun Lei*, Liangbin Li, Zhong-Ming Li*, Window of Pressure and Flow To Produce β-Crystals in Isotactic Polypropylene Mixed with β-Nucleating Agent, Macromolecules, 2017, 50(12): 4807–4816. (SCI影响因子5.914)

[4] Shu-Gui Yang, Zhe Ma, Jun Lei*,Liangbin Li, Benjamin S. Hsiao, Zhong-Ming Li*, A Criterion for Flow-Induced Oriented Crystals in Isotactic Polypropylene under Pressure, Macromolecular Rapid Communications, 2017, 381700407. (SCI影响因子4.441)

[5] Jia-Feng Ru, Shu-Gui Yang, Jun Lei*, and Zhong-Ming Li*Thicker Lamellae and Higher Crystallinity of Poly(lactic acid) via Applying Shear Flow and Pressure and Adding Poly(ethylene Glycol),Journal of Physical Chemistry B, 2017, 121 (23),  5842–5852. (SCI影响因子3.146)

[6] Jia-Feng Ru, Shu-Gui Yang, Dong Zhou, Hua-Mo Yin, Jun Lei*, and Zhong-Ming Li*, Dominant β-Form of Poly(l-lactic acid) Obtained Directly from Melt under Shear and Pressure Fields, Macromolecules, 2016, 49(10): 3826–3837. (SCI影响因子5.914)

[7] Dong Zhou, Shu-Gui Yang, Jun Lei*, Benjamin S. Hsiao, and Zhong-Ming Li*, Role of Stably Entangled Chain Network Density in Shish-Kebab Formation in Polyethylene under an Intense Flow FieldMacromolecules, 2015, 48 (18): 6652–6661. (SCI影响因子5.914)

[8] Shu-Gui Yang, Zhenchi Zhang, Dong Zhou, Yan Wang, Jun Lei*, Liangbin Li, Zhong-Ming Li*, Macromolecules,2015, 48 (16): 5834-5844. (SCI影响因子5.914)

[9] Shu-Gui Yang, Zhengchi Zhang, Liang-Qing Zhang, Dong Zhou, Yan Wang, Jun Lei*,Liangbin Li, Zhong-Ming Li*, Polymer Chemistry, 2015, 6 (25): 4588-4596. (SCI影响因子4.927)

[10] Zheng-Chi Zhang, Liang Deng, Jun Lei*, Zhong-Ming Li*, Isotactic polypropylene reinforced atactic polypropylene by formation of shish-kebab superstructure, Polymer, 2015,78: 120-133. (SCI影响因子3.483)

[11] Hao-Ran Yang, Jun Lei*, Liangbin Li, Qiang Fu, and Zhong-Ming Li*, Formation of Interlinked Shish-Kebabs in Injection-Molded Polyethylene under the Coexistence of Lightly Cross-Linked Chain Network and Oscillation Shear FlowMacromolecules, 2012, 45 (16), 6600–6610. (SCI影响因子5.914)

[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 BlendACS Sustainable Chemistry Engineering, 2013, 1(8), 937?949. (SCI影响因子6.140)

[13] Ding-Xiang Yan, Huan Pang, Ling Xu, Yu Bao, Peng-Gang Ren, Jun Lei* and Zhong-Ming Li*, Electromagnetic interference shielding of segregated polymer composite with an ultralow loading of in situ thermally reduced graphene oxide, Nanotechnology, 2014, 25 (14): 145705. (SCI影响因子3.404)

 

 

 

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