导师姓名：翁更生
性别：男
人气指数：551

所属院校：宁波大学
所属院系：材料科学与化学工程学院
职称：讲师
导师类型：
招生专业：物理化学、材料工程
研究领域： 高分子材料加工/聚合物结构性能表征分析
研究领域： 高分子材料加工/聚合物结构性能表征分析 [收起]




通讯方式 :
电子邮件：wenggengsheng@nbu.edu.cn


个人简述 :
高分子材料博士，硕士生导师，毕业于四川大学高分子学院高分子材料系。目前主持国家自然科学基金1项、省自然科学基金1项、厅市级项目3项、校级项目2项，参与多项国家级项目的研究工作。曾参加过多项国家973项目、国家自然科学基金项目的研究工作，已发表sci论文30余篇。

拟招收的专业：物理化学，材料工程。

主要研究方向：（1）高性能橡胶纳米复合材料的制备及结构性能研究；（2）高分子材料微观结构演变表征与分析。


科研工作 :
1. Weng, G. Huang, Y. Thanneeru, S. Li, H. Alamri, A. He, J. Cross-linking of COOH-containing polymers using Ag(i)-catalyzed oxidative decarboxylation in aqueous solution. Soft Matter 2017,13, (29), 5028.

2. Pan, W. Chen, H. Mu, J. Li, W. Jiang, F. Weng, G. Hu, Y. Gong, D. Zhang, X. Synthesis of high crystalline syndiotactic 1, 2-polybutadienes and study on their reinforcing effect on cis-1, 4 polybutadiene. Polymer 2017, 111, 20-26.

3. Ding, Y. Cao, X. Weng, G. Yin, Q. Wang, L. Chen, Z. Crack growth behavior of natural rubber influenced by functionalized carbon nanotubes. Journal of Applied Polymer Science 2017, 134, (9), 44527.

4. Chang, A. Weng, G. Fu, K. Ding, Y. Gong, D. Crack growth of natural rubber filled with functionalized silica particles. Journal of Applied Polymer Science 2016, 133, (6), 42972.

5. Weng, G. Chang, A. Fu, K. Kang, J. Ding, Y. Chen, Z. Crack growth mechanism of styrene-butadiene rubber filled with silica nanoparticles studied by small angle X-ray scattering. RSC Advances 2016, 6, (10), 8406-8415.

6. Yao, H. Weng, G. Liu, Y. Fu, K. Chang, A. Chen, Z. R. Effect of silane coupling agent on the fatigue crack propagation of silica‐filled natural rubber. Journal of Applied Polymer Science 2015, 132, (20), 41980.

7. Liu, W. Pan, W. Wang, P. Li, W. Mu, J. Weng, G. Jia, X. Gong, D. Huang, K.-W. Synthesis of mixed-ligand cobalt complexes and their applications in high cis-1, 4-selective butadiene polymerization. Inorganica Chimica Acta 2015, 436, 132-138.

8. Li, H. Yang, L. Weng, G. Xing, W. Wu, J. Huang, G. Toughening rubbers with a hybrid filler network of graphene and carbon nanotubes. Journal of Materials Chemistry A 2015, 3, (44), 22385-22392.

9. Kang, J. Weng, G. Chen, Z. Chen, J. Cao, Y. Yang, F. Xiang, M. New understanding in the influence of melt structure and β-nucleating agents on the polymorphic behavior of isotactic polypropylene. RSC Advances 2014, 4, (56), 29514-29526.

10. Nie, Y. Qu, L. Huang, G. Wang, X. Weng, G. Wu, J. Homogenization of natural rubber network induced by nanoclay. Journal of Applied Polymer Science 2014, 131, (11), 40324.

11. Weng, G. Yao, H. Chang, A. Fu, K. Liu, Y. Chen, Z. Crack growth mechanism of natural rubber under fatigue loading studied by a real-time crack tip morphology monitoring method. RSC Advances 2014, 4, (83), 43942-43950.

12. Weng, G.-S. Wu, J.-R. Xu, Y.-C. Bao, J.-B. Huang, G. Chen, Z.-R. Study on the stretch induced phase transition of α trans-1, 4-polyisoprene by in-situ SAXS and WAXS measurements. Journal of Polymer Research 2014, 21, (11), 576.

13. Weng, G.-S. Bao, J.-B. Xu, Y.-C. Chen, Z.-R. New insight into stretch induced structural evolution of α trans-1, 4-polyisoprene characterized by real time synchrotron WAXS and SAXS measurements. Journal of Polymer Research 2013, 20, (3), 104.

14. Weng, G. Huang, G. Qu, L. Nie, Y. Wu, J. Large-Scale Orientation in a Vulcanized Stretched Natural Rubber Network: Proved by In Situ Synchrotron X-ray Diffraction Characterization. J. Phys. Chem. B 2010, 114, (21), 7179-7188.
1.纳米粒子微观聚集态结构演变对非结晶性橡胶裂纹生长的影响研究,编号：2017A610051，宁波市自然科学基金

2.纳米粒子影响下橡胶裂纹生长多层次形态结构演变规律和机理，编号：**，国家自然科学基金

3.共混橡胶裂纹生长速率的相分离调控机制研究，编号：lq14e030001，浙江省自然科学基金

4.橡胶裂纹尖端形态演变的在线追踪与机理研究，编号：2013a610024，宁波市自然科学基金

5.橡胶裂纹尖端形态生成与发展的在线研究，编号：y**，浙江省教育厅科技计划项目
宁波市第四批外地引进第三类重点高层次人才