汤龙程

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2016-06-16
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个人简介

汤龙程,男,19802月生,副研究员,硕士生导师。2006年起师从中国科学院院士、著名实验力学家伍小平院士,20116月在中国科学技术大学获得工学博士学位;博士期间在国家纳米科学中心进行博士联合培养,师从著名纳米复合材料领域专家张忠研究员。20117月加入杭州师范大学有机硅化学及材料技术教育部重点实验室。先后主持和参与了国家自然科学基金、浙江省重大科技专项、浙江省省级重点企业研究院青年科学家培养计划项目、浙江省自然科学基金和企业合作项目等十多项。已在CarbonJournal of Materials Chemistry AComposites Science and Technology等杂志上发表学术论文30多篇,近5年他引超过500次;其中两篇论文分别入选CarbonComposites Part A杂志Top25 Hottest Article,受邀在美国工程学会的网站上撰写一个短综述(SPE Plastics Research Online, 2014, 10.2417/spepro.005482);已申请国际专利和中国专利十余项,其中已授权五项。部分研究成果与合作企业实现了技术转化,并于2013年入选浙江省青年科学家培养计划第一批签约人选,2014年入选浙江省151人才工程培养人员(第三层次)。

主要学历

1999.9~2003.7 合肥工业大学,本科;

2006.9~2011.6 中国科学技术大学,硕博连读,博士(导师:伍小平教授);

2007.8~2011.5 国家纳米科学中心,博士联合培养(导师:张忠研究员);

2015.2~2016.2 悉尼大学,访问学者(合作导师:Yiu-Wing Mai教授)。

主要研究方向

1.       有机硅类材料(如灌封胶、涂料、塑料)研发及其制备技术;

2.       纳米材料(如石墨烯和银纳米颗粒)的合成、分散与表界面控制;

3.       阻燃、导电/导热、超疏水等功能聚合物复合材料研究及其应用产品开发;

4.       聚合物基纳米复合材料的力学行为研究,包括断裂、蠕变、压敏、摩擦磨损等。

主要科研项目及角色

1. 新型低热膨胀系数高韧性环氧灌封胶研发,企业合作项目,2015.9-2017.2,项目负责人;

2. 导电大分子功能化石墨烯构筑界面和形态结构可控的聚合物纳米复合材料及其力学行为研究,浙江省自然科学基金一般项目(LY15E030015 ),2015.01-2017.12,项目负责人;

3. 多尺度纳米颗粒协同增韧热固性聚合物体系的构筑及其断裂机理研究,国家自然科学基金(51203038),2013.1-2015.12,项目负责人;

4. 加成型有机硅灌封胶的制备、结构和性能及其产业化技术的研发,浙江省重点企业研究院青年科学家培养计划项目(2013R40015),2014.1-2015.12,项目负责人;

5. xxx关键技术研究,军工预研项目(YY201406201),2014.5-2015.9,项目负责人;

6. 绿色环保脱醇型硅橡胶的性能调控及其应用产品研发,浙江省重大科技专项重点工业项目(2013C01030),2013.1-2015.12,项目主要骨干;

【代表性论著】*通讯作者

[21] LX Gong, L Zhao, LC Tang*, HY Liu, YW Mai. Balanced electrical, thermal and mechanical properties of epoxy composites filled with chemically reduced graphene oxide and rubber nanoparticles. Composites Science and Technology, 2015; 121: 104-114. (JCR二区,工程技术类,IF=3.569)

[20] J Zang, YJ Wan, L Zhao, LC Tang*. Fracture Behaviors of TRGO-Filled Epoxy Nanocomposites with Different Dispersion/ Interface Levels. Macromolecular Materials and Engineering 2015; 300: 737-749. (JCR二区,工程技术类,IF=2.781)

[19] X Wang, LX Gong, LC Tang*, K Peng, YB Pei, L Zhao*, LB Wu, JX Jiang. Temperature dependence of creep and recovery behaviors of polymer composites filled with chemically reduced graphene oxide. Composites Part A 2015; 69: 288-298. (JCR二区,工程技术类,IF=3.012)

[18] LZ Guan, LX Gong, LC Tang*, LB Wu, JX Jiang, GQ Lai. Mechanical properties and fracture behaviours of epoxy composites with phase-separation formed liquid rubber and preformed powered rubber nanoparticles: A comparative study. Polymer Composites, 2015; 36(5): 785-799. (IF=1.632Featured articles from May's issue of Polymer Composites)

[17] LZ Guan, YJ Wan, LX Gong, D Yan, LC Tang*, LB Wu, JX Jiang*, GQ Lai. Toward effective and tunable interphases in graphene oxide/epoxy composites by grafting different chain lengths of polyetheramine onto graphene oxide. Journal of Materials Chemistry A, 2014; 2(36): 15058- 15069. (JCR一区,工程技术类,IF=7.443)

[16] YJ Wan, LX Gong, LC Tang*, LB Wu, JX Jiang. Mechanical properties of epoxy composites filled with silane-functionalized graphene oxide. Composites Part A, 2014; 64: 79-89. (JCR二区,工程技术类,IF=3.012Top 25 Hottest Articles from 07/2014-09/2014)

[15] K Peng, YJ Wan, DY Ren, QW Zeng, LC Tang*. Scalable preparation of multiscale carbon nanotube/glass fiber reinforcements and their application in polymer composites. Fibers and Polymers, 2014; 15(6): 1242-1250. (IF=1.113)

[14] YJ Wan, LC Tang*, LX Gong, D Yan, YB Li, LB Wu, JX Jiang, GQ Lai. Grafting of epoxy chains onto graphene oxide for epoxy composites with improved mechanical and thermal properties. Carbon, 2014; 69: 467-480. (JCR一区,工程技术类,Highly cited papersIF=6.196)

[13] LC Tang*, X Wang, YS Zhang, K Peng, L Zhao*, Q Chen, LB Wu*, JX Jiang, GQ Lai. Creep and recovery of polystyrene composites filled with graphene additives. Composites Science and Technology, 2014; 91: 63-70. (JCR二区,工程技术类,IF=3.569)

[12] LC Tang*, YJ Wan, D Yan, YB Pei, L Zhao, YB Li, LB Wu*, JX Jiang, GQ Lai. The effect of graphene dispersion on the mechanical properties of graphene/epoxy composites. Carbon, 2013; 60: 16-27. (JCR一区,工程技术类,Highly cited papersIF=6.196Top 25 Hottest Articles from 01/2013-03/2013, 07/2013-09/2013)

[11] YJ Wan, LC Tang*, D Yan, L Zhao, YB Li*, LB Wu, JX Jiang, GQ Lai. Improved dispersion and interface in the graphene/epoxy composites via a facile surfactant-assisted process. Composites Science and Technology, 2013; 82: 60-68. (JCR二区,工程技术类,IF=3.569)

[10] LC Tang*, X Wang, YJ Wan, LB Wu, JX Jiang, GQ Lai*. Mechanical properties and fracture behaviors of epoxy composites with multi-scale rubber particles. Materials Chemistry and Physics, 2013; 141: 333-342. (JCR二区,工程技术类,IF=2.259)

[9] LC Tang*, YJ Wan, K Peng , YB Pei, LB Wu, LM Chen, LJ Shu, JX Jiang, GQ Lai*. Fracture toughness and electrical conductivity of epoxy composites filled with carbon nanotubes and spherical particles. Composites Part A, 2013; 45: 95-101. (JCR二区,工程技术类,IF=3.071)

[8] LC Tang, H Zhang, L Ye, S Sprenger, Z Zhang. Fracture mechanisms of epoxy-based ternary composites filled with rigid-soft particles. Composites Science and Technology, 2012; 72(5):558-65. (JCR二区,工程技术类,IF=3.569)

[7] LC Tang, H Zhang, JH Han, XP Wu, Z Zhang. Fracture mechanism of epoxy composites filled with ozone functionalized multi-wall carbon nanotubes. Composites Science and Technology, 2011; 72(1): 7-13. (JCR二区,工程技术类,IF=3.569)

[6] LC Tang, H Zhang, XP Wu, Z Zhang. A novel failure analysis of multi-walled carbon nanotubes in epoxy matrix. Polymer, 2011; 52(9): 2070-2074. (IF=3.562)

[5] LC Tang, H Zhang, XP Wu, Z Zhang. Improvement and mechanism of the interface strength between fiber and epoxy resin filled with the alumina nanoparticles. In: Proceedings of ICCM-18; 2011.

[4] LQ Liu, LY Li, Y Gao, LC Tang, Z Zhang. Single carbon fiber fracture embedded in an epoxy matrix modified by nanoparticles. Composites Science and Technology, 2013; 77: 101-109. (JCR二区,工程技术类,IF=3.569)

[3] R Suihkonen, K Nevalainen, O Orell, M Honkanen, LC Tang, H Zhang ,Z Zhang, J Vuorinen. Performance of epoxy filled with nano- and micro- sized magnesium hydroxide. Journal Materials Science, 2011; 47: 1480-1488. (JCR二区,工程技术类,IF=2.371)

[2] H Zhang, H Zhang, LC Tang, LY Zhou, C Eger, Z Zhang. Comparative study on the optical, surface mechanical and wear resistant properties of transparent coatings filled with pyrogenic and colloidal silica nanoparticles. Composites Science and Technology, 2010; 71(4): 471-479. (JCR二区,工程技术类,IF=3.569)

[1] H Zhang, LC Tang, Z Zhang, K Friedrich, S Sprenger. Fracture behaviours of in situ silica nanoparticle-filled epoxy at different temperatures. Polymer, 2008; 49(17): 3816-3825. (IF=3.562)

部分专利

[14] 汤龙程,吴连斌,张茜,赵丽,裴勇兵,陈利民,蒋剑雄. 一种有机硅树脂改性聚合物泡沫复合材料的制备方法及其应用, CN104974527A(公开号),201510141079.4(申请号)。

[13] 吴连斌, 汤龙程, 陈利民, 赵丽, 裴勇兵, 龚丽秀,蒋剑雄, 邱化玉. 一种有机硅树脂模塑料及其制备方法,CN104327507A201410470983

[12] 邵向东, 杨庆红, 田江漫, 汤龙程, 邓冬云, 王文斌. 一种低密度导热灌封胶及其制备方法,CN104861661A201510241330

[11] 汤龙程,万艳君,赵丽,裴勇兵,陈利民,吴连斌,蒋剑雄。一种功能化氧化石墨烯/环氧树脂纳米复合材料的制备方法CN103627139A201310440464

[10] 裴勇兵,吴连斌,赵丽,汤龙程,陈遒,蒋剑雄,来国桥。一种聚倍半硅氧烷-聚丙烯酸酯-纳米SiO2复合乳液及其制备方法与应用,CN103626933A201310477704

[9] 吴连斌,裴勇兵,韩庆雨,汤龙程,陈遒,蒋剑雄,来国桥。一种疏水性有机无机高硅含量丙烯酸酯聚合物乳液及其制备方法与应用,CN103626933A201310477770

[8] 吴连斌,陈利民,陈遒,郑战江,裴勇兵,汤龙程,杨雄发,华西林,蒋剑雄,来国桥。一种有机硅树脂型胶粘剂的制备方法及其应用,CN103540289A201310198353

[7] 陈利民,汤龙程,吴连斌,陈遒,裴勇兵,杨雄发,华西林,蒋剑雄,来国桥。一种具有高弯曲性能的有机硅树脂复合材料的制备方法,CN103289409A201310090898

[6] 裴勇兵,钟颖,吴连斌,汤龙程,陈遒,蒋剑雄,来国桥。一种水性有机无机氟硅改性丙烯酸酯聚合物乳液及其制备方法与应用,CN103289021A201210552018

[5] 吴连斌,裴勇兵,钟颖,汤龙程,陈遒,蒋剑雄,来国桥。一种玻璃超疏水表面的制备方法CN103288364A201210552136

[4] 裴勇兵,吴连斌,钟颖,汤龙程,陈遒,蒋剑雄。一种自交联硅丙聚合物乳液及其制备方法,CN102898578A201210243411

[3] 丽,邬继荣,汤龙程,裴勇兵,蒋剑雄,来国桥。一种导电粒子/硅橡胶压敏材料及其制备方法与应用,CN103525093A, 201310297183

[2] 赵丽,邬继荣,裴勇兵,汤龙程,蒋剑雄,来国桥。一种发泡硅酮母粒及其制备方法与应用,CN103524822A201310248751

[1] H Meyer, Z Zhang, H Zhang, LC Tang, K Peng, LQ Liu, HC Li. Improved mechanical properties of epoxy filled with functionalized carbon nanotubes, WO 2010102732 A1, 2009

联系方式

电话/传真:0571-28868905

电子邮箱:lctang@hznu.edu.cn hnutlc@163.com

友情链接

联系电话:28865135 电子邮箱:yjg@hzhu.edu.cn

地址:浙江省杭州市文一西路1378号F座 邮政编码:311121 后台管理

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