翟文濤(研究員)

翟文濤博士一直從事聚合物微發泡材料的基礎和套用研究，對聚合物微發泡材料的泡孔形態控制、聚合物微發泡過程中流變和結晶行為的演變等均有較深的理解。先後開發了聚乳酸微發泡材料規模化製備和成型技術、熱塑性聚醯亞胺微發泡材料規模化製備和成型技術、熱塑性聚氨酯微發泡材料規模化製備和成型技術；對聚合物發泡材料配方設計、工藝路線最佳化、發泡裝備搭建等諸多方面均有較為豐富的經驗。先後發表學術論文60餘篇，其中SCI論文43篇；撰寫英文著作3個章節；申請中國發明專利10項，授權7項。2012年受邀成為IUPAC東亞高分子學會會員。

聚合物微發泡材料加工和成型；

聚合物功能發泡材料；

石墨烯製備和改性；

1. K. Wang, W.T. Zhai*, “Chapter 3-Extrusion foaming of polypropylene/clay nanocomposite foams” in Polymer Nanocomposite Foams, Vikas Mittal, Taylor & Francis Group, 2013.

2. B. Shen, W.T. Zhai*, “Chapter X-Fabrication of Lightweight Polymer/Graphene Foams for Electromagnetic Interferences Shielding” in Graphene Oxide: Synthesis, Mechanical Properties and Applications, Zhiping Xu, Nova, 2014.

3. B. Shen, W.T. Zhai, D.D. Lu, W.G. Zheng, “Chapter 2-Preparation and Characterisation of Graphene Synthesised by Low-Temperature Exfoliation and Reduction of Graphite Oxide” in Innovative Graphene Technologies: Developments and Characterisation Volume 1, Atul Tiwai, Smithers Rapra, 2013.

1. W.T. Zhai, J. Yu, L.C. Wu, W.M. Ma, J.S. He, Heterogeneous nucleation uniformizing cell size distribution in microcellular nanocomposites foams, Polymer

2. W.T. Zhai, J. Yu, W.M. Ma, J.S. He, Effect of long-chain branching on the crystallization and melting of polycarbonates in supercritical CO2, Macromolecules,

3. W.T. Zhai, J. Yu, H.Y. Wang, J.Y. Dong, J.S. He. Producing the polystyrene and poly(methyl methacrylate) graft isotactic polypropylene copolymer microcellular foams using supercritical CO2: Influence of phase behavior on foaming behavior of polymer, Polymer

4. W.T. Zhai, J. Yu, J.S. He, Ultrasonic irradiation enhanced cell nucleation: An effective approach to microcellular foams of both high cell density and expansion ratio, Polymer

5. W.T. Zhai, T. Kuboki, L. Wang, C.B. Park, E.K. Lee, H. Naguib, Cell structure evolution and the crystallization behavior of PP/clay nanocomposites foams blown in continuous extrusion, Ind. Eng. Chem. Res.

6. W.T. Zhai, Y.W. Kim, C.B. Park, Steam-chest molding of EPP foams: Part 1. DSC simulation of bead foam processing, Ind. Eng. Chem. Res

7. W.T. Zhai, Y.W. Kim, D.W. Jung, C.B. Park, Steam-Chest Molding of Expanded Polypropylene Foams: Part 2. The Mechanism of Inter-Bead Bonding, Ind. Eng. Chem. Res.

8. W.T. Zhai, C.B. Park, M. Kontopoulou, Nano-Silica Addition Dramatically Improves the Cell Morphology and Expansion Ratio of Polypropylene Heterophasic Copolymer Foams Blown in Continuous Extrusion, Ind. Eng. Chem. Res

9. B. Shen, W.T. Zhai*, C. Chen, D.D. Lu, J. Wang, W.G. Zheng*, Melt Blending In-Situ Enhances the Interaction Between Polystyrene and Graphene Through π-π Stacking, ACS Appl. Mater. Inter

10. J. Wang, W.T. Zhai*, J.Q. Ling, B. Shen, W.G Zheng*, C.B. Park, Ultrasonic Irradiation Enhanced Cell Nucleation in Microcellular Poly(Lactic Acid): A Novel Approach to Uniformize Cell Structure and Increase Foam Expansion, Ind. Eng. Chem. Res

11. W.T. Zhai*, W.W. Feng, J.Q. Ling, W.G. Zheng, Fabrication of Lightweight Microcellular Polyimide Foams with Three-Dimensional Shape by CO2 Foaming and Compression Molding, Ind. Eng. Chem. Res.

12. B. Shen, D.D. Lu, W.T. Zhai*, W.G. Zheng*, Synthesis of graphene via low-temperature exfoliation and reduction of graphite oxide under ambient atmosphere, J. Mater. Chem. C

13. J.Q. Ling, W.T. Zhai*, W.W. Feng, B. Shen, J.F. Zhang, W.G. Zheng, Facile preparation of lightweight microcellular polyetherimide/graphene composites foams for electromagnetic interference (EMI) shielding, ACS Appl. Mater. Interfaces

14. B. Shen, W.T. Zhai*, M.M. Tao, J.Q. Ling, W.G. Zheng*,Lightweight Multifunctional Polyetherimide GrapheneFe3O4 Composite Foams for Shielding of Electromagnetic Pollution. ACS Appl. Mater. Interfaces

15. X.Q. Lan, W.T. Zhai*, W.G. Zheng*, Critical effects of polyethylene addition on the autoclave foaming behavior of polypropylene and the melting behavior of polypropylene foams blown with n-pentane and CO2, Ind. Eng. Chem. Res

16. G.Y. Ji, W.T. Zhai*, D.P. Lin, W.G. Zheng, D.W. Jung. Microcellular foaming of PLA/Silica nanocomposites in compressed CO2: Critical influence of crystallite size on cell morphology and foam expansion, Ind. Eng. Chem. Res

17. Q. Ren, J.J. Wang, W.T. Zhai*, S.P. Su, Solid State Foaming of Poly(lactic acid) Blown with Compressed CO2: Influences of Long Chain Branching and Induced Crystallization on Foam Expansion and Cell Morphology, Ind. Eng. Chem. Res

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