个人简介:

王震，博士，副教授，博士生导师，河南省优青，郑州大学青年骨干教师

郑州大学，橡塑模具国家工程研究中心

地址：河南省郑州市金水区文化路97号 模具大厦803室

E-mail：wangz@zzu.edu.cn

教育与工作经历：

2022.01-至今  郑州大学，橡塑模具国家工程研究中心，副教授，博导

2017.12-2021.12  郑州大学，橡塑模具国家工程研究中心，讲师，直聘副教授

2012.09-2017.12  中国科学技术大学，国家同步辐射实验室，硕士/博士，师从李良彬研究员

2008.09-2012.07  郑州大学，材料科学与工程学院，学士（保送入中科大）

主要研究方向:

高分子加工物理

高分子结构调控及高性能化

流动场诱导高分子结晶

生物基/可降解高分子材料

压电功能响应高分子材料

承担科研项目：

1. 河南省优秀青年科学基金项目，2024.1-2026.12，主持

2. 国家自然科学基金面上基金项目（52273045），2023.1-2026.12，主持

3. 国家自然科学基金青年科学基金项目（51803189），2019.1-2021.12，主持

4. 中国博士后科学基金面上一等资助（2018M630832），2018.3-2021.3，主持

5. 河南省重点研发与推广专项（科技攻关）（232102230152），2023.1-2024.12，主持

6. 郑州大学青年人才企业合作创新团队支持计划项目，2022.01-2022.12，主持

7. 横向项目，有机玻璃试样研制，2018.12-2019.12，主持

8. 郑州大学青年教师科研启动基金项目，2018.6-2020.6，主持

研究生招生：

热忱欢迎具有力学、物理、材料、数学、化学等理工科专业背景的同学报考硕士、博士研究生！欢迎来信咨询。

部分论文及专利：

Publications

1.      Z. Zhang, S. Cui, R. Ma, Q. Ye, J. Sun, Y. Wang*, C. Liu, Z. Wang*. Melt stretching and quenching produce low-crystalline biodegradable poly (lactic acid) filled with β-form shish for highly improved mechanical toughness. International Journal of Biological Macromolecules, 2023, 251: 126220.

2.      X. Bai, F. Yan, M. Yuan, H. Li, Z. Zhang, J. Sun, B. Dong*, C. Liu, Z. Wang*. Facile fabrication of ultrastrong polyethylene nanocomposite films with low filler content via flow-driven graphene re-dispersion assisted crystallization. Composites Part B: Engineering, 2023, 264: 110904.

3.      F. Yan, H. Li, S. Cui, J. Sun, Q. Ye, Y. Liu*, C. Liu, Z. Wang*. Effects of combined melt stretching and fast cooling fields on crystallization of high-density polyethylene. Polymer, 2023, 275: 125930.

4.      Y. Liu, Y. Wu, S. Zhao, X. Wang, J. Zheng, W. Zeng, M. Yuan, N. Zhao, Q. Li, Z. Wang*, N. Tian*. Biobased phase change material with reduced thermal conductivity: from preparation to analysis of thermal insulation performance. ACS Applied Polymer Materials, 2023, 5.5: 3728-3736.

5.      M. Yuan, R. Ma, Q. Ye, X. Bai, H. Li, F. Yan, C. Liu*, Y. Ren, Z. Wang*. Melt-stretched poly (vinylidene fluoride)/zinc oxide nanocomposite films with enhanced piezoelectricity by stress concentrations in piezoelectric domains for wearable electronics. Chemical Engineering Journal, 2023, 455: 140771.

6.      H. Li, Q. Ye, J. Sun, S. Cui, Z. Zhang*, C. Liu, C. Shen, Z. Wang*. A combined melt-stretching and quenching setup for experimental studies of polymer crystallization under complex flow-temperature environments. Review of Scientific Instruments, 2023, 94(1): 015102.

7.      Y. Liu, Y. Wang, H. Zhang, Y. Wu, S. Zhao, Q. Li, C. Shao*, Z. Wang*. Toughening of polybutene-1 with form I′ induced by rapid pressurization. CrystEngComm, 2022, 24, 300-310.

8.      M. Wen, B. Chen, X. Wang, R. Ma, C. Liu, W. Cao, Z. Wang*. High-speed melt stretching produces polyethylene nanocomposite film with ultrahigh mechanical strength. Composites Science and Technology, 2022, 218, 109134.

9.      B. Chen, M. Yuan, R. Ma, X. Wang, W. Cao*, C. Liu, C. Shen, Z. Wang*. High performance piezoelectric polymer film with aligned electroactive phase nan fibrils achieved by melt stretching of slightly crosslinked poly (vinylidene fluoride) for sensor applications. Chemical Engineering Journal, 2022, 433, 134475.

10.  Y. Liu*, Y. Wang, Q. Yu, L. Ren, Y. Wu, Z. Wang*, Q. Li, B. S. Hsiao. Crystal structural evolution of Polybutene-1 in solid state upon deformation and stress relaxation. Polymer, 2021, 226, 123833.

11.  X. Wang, F. Yan, X. Bai, H. Li, M. Yuan, Y. Liu*, B. S. Hsiao, C. Liu, Z. Wang*. Lamellar crystal-dominated surfaces of polymer films achieved via melt stretching-induced free surface crystallization. Soft Matter, 2021, 17, 10829-10838.

12.  X. Chen, Z. Zhang, B. Chen, C. Liu, S. Zhang*, W. Cao, Z. Wang*. Crystalline grain refinement toughened isotactic polypropylene through rapid quenching of stretched melt. Polymer, 2021, 123435.

13.  Z. Zhang, X. Wang, Y. Wang, C. Shen, C. Liu, Z. Wang*. Melt extension-induced shish-kebabs with heterogeneous spatial distribution of crystalline polymorphs in lightly crosslinked poly (lactic acid). Polymer, 2020, 208: 122875.

14.  Z. Wang*, C. Zhang, Z. Zhang, X. Chen, X. Wang, M. Wen, B. Chen, W. Cao, C. Liu. Polyethylene oxide enhances the ductility and toughness of polylactic acid: the role of mesophase. Soft Matter, 2020, 16.30: 7018-7032.

15.  Z. Zhang, X. Chen, C. Zhang, C. Liu, Z. Wang*, Yan-Ping Liu*. Polymorphic Transition of Pre-oriented Polybutene-1 under Tensile Deformation: In Situ FTIR Study. Chinese Journal of Polymer Science, 2020, 1-10.

16.  Y. Liu,* M. Zhang, H. Wei, Z. Wang*, J. Zeng, Q. Li. The sunken morphology of poly (lactic acid) stereocomplex spherulite. Polymer International, 2019, 68.8: 1524-1530.

17.  Z. Wang, Y.P. Liu, C.T. Liu, J.S. Yang, L.B. Li*. Understanding structure-mechanics relationship of high density polyethylene based on stress induced lattice distortion. Polymer, 2019, 160, 170-180.

18.  Z. Wang, F.M. Su, Y.X. Ji, H.R. Yang, N. Tian, J.R. Chang, L.P. Meng, L.B. Li*. Transition from Chain- to Crystal-Network in Extension Induced Crystallization of Isotactic Polypropylene. Journal of Rheology, 2017, 61, 589-599.

19.  Z. Wang, J.Z. Ju, L.P. Meng*, N. Tian, J.R. Chang, H.R. Yang, Y.X. Ji, F.M. Su, L.B. Li*. Structural and Morphological Transitions in Extension-Induced Crystallization of Poly(1-butene) Melt. Soft Matter, 2017, 13, 3639-3648.

20.  Z. Wang, Z. Ma, L.B. Li*. Flow-Induced Crystallization of Polymers: Molecular and Thermodynamic Considerations. Macromolecules, 2016, 49(5), 1505-1517.

21.  Z. Wang, J.Z. Ju, J.S. Yang, Z. Ma, D. Liu, K.P. Cui, H.R. Yang, J.R. Chang, N.D. Huang, L.B. Li*. The non-equilibrium phase diagrams of flow-induced crystallization and melting of polyethylene. Scientific Reports, 2016, 6, 32968.

22.  Z. Wang, X.W. Chen, L.P. Meng, K.P. Cui, L.H. Wu, L.B. Li*. A small-angle x-ray scattering system with a vertical layout. Review of Scientific Instruments, 2014, 85(12), 125110.

23.  J.R. Chang, Z. Wang*, X.L. Tang, F.C. Tian, K. Ye, L.B. Li*. A portable extruder for in situ wide angle x-ray scattering study on multi-dimensional flow field induced crystallization of polymer. Review of Scientific Instruments. 2018, 89(2), 025101.

24.  L.X. Song, Z. Wang, X.L. Tang, L. Chen*, P.Z. Chen, Q.X. Yuan, and L.B. Li*. Visualizing the Toughening Mechanism of Nanofiller with 3D X-Ray Nano-CT: Stress-Induced Phase Separation of Silica Nanofiller and Silicone Polymer Double Networks. Macromolecules, 2017, 50.18: 7249-7257.

25.  J.Z. Ju, Z. Wang, F.M. Su, Y.X. Ji*, H.R. Yang, J.R. Chang, S. Ali, X.Y. Li, L.B. Li*. Extensional Flow-Induced Dynamic Phase Transitions in Isotactic Polypropylene. Macromolecular Rapid Communications, 2016, 37(17), 1441.

26.  S.S. Zhu, Z. Wang, F.M. Su, W.Q. Zhou, N. Tian, X.Y. Li, L.B. Li*. The influence of inertia and elastic retraction on flow-induced crystallization of isotactic polypropylene. Journal of Rheology, 2013, 57(5), 1281-1296.

Patents

1.      王震，白雪，闫菲菲，马瑞雪，张臻，董斌斌，刘春太，一种高强度聚乙烯/石墨烯纳米复合薄膜及其制备方法，中国发明，2023.7.21（授权），专利号ZL202211125050.3

2.      王震，陈彬，袁铭，王小会，曹伟，刘春太，一种高β晶含量PVDF薄膜的制备方法，中国发明，2023.4.25（授权），专利号：ZL202111562909.2

3.      王震，陈鑫，张臻，温名杰，刘春太，一种高韧性聚丙烯及其制备方法，中国发明，2022.4.1（授权），专利号ZL202011174632.1

4.      王震，张臻，陈鑫，王小会，刘春太，一种实现快速降温的熔体拉伸装置，实用新型，2021.4.13（授权），专利号ZL202021441653.0

5.      李良彬，王震，陈晓伟，一种立式超小角X射线散射装置，实用新型，2015.01.21（授权），专利号CN201420488344.7