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王正直

  

王正直

出生年月

198611

学历学位

博士

 

副教授

博导/硕导

博导、硕导

430072

电话



通信地址

武汉武昌东湖南路8号武汉大学工学部力学楼302

Email

zhengzhi.wang@whu.edu.cn

学习经历

2012.09-2015.05  美国国家标准与技术研究院(NIST)生物材料组,博士后


2007.09-2012.07  中国科学技术大学近代力学系,工学博士


2004.03-2007.07  安徽大学物理与材料科学学院,理学学士

任职经历

2015.06-至今,武汉大学土木建筑工程学院,副教授

本科生课程:《理论力学A1》、《理论力学A2

研究生课程:《高等实验固体力学》、《细观力学与固体本构》、《微纳米力学》

主要研究领域

1. 多尺度实验固体力学

2. 生物材料力学与仿生

3. 聚合物基纳米复合材料

4. 光聚合与牙齿修复

(近期研究成果简介:https://news.whu.edu.cn/info/1002/60570.htm

http://civ.whu.edu.cn/info/1094/6492.htm

主要论文著作(*为通讯作者)

武汉大学工作期间

1. J. Xu, X. Tang, Z. Wang, Y. Feng, K. Bian. Investigating the softening of weak   interlayers during landslides using nanoindentation experiments and   simulations. Engineering Geology, accepted, doi.org/10.1016/j.enggeo.2020.105801.

2. Z.   Wang*, K. Wang, X. Tang.   Heterogeneous magnetic micropillars for regulated bending actuation. Extreme   Mechanics Letters, 38:   100734, 2020.

3. Z.   Wang*, K. Wang, D.   Liang, L. Yan, K. Ni, B. Li, Z. Guo, J. Wang, X. Ma, X. Tang, H. Huang &   L.-Q. Chen*. Hybrid magnetic micropillar arrays for programmable actuation. Advanced   Materials, 32:   2001879, 2020.

4. 李蓓,潘蕾,查超,胡建华,李蓓,王正直. 牙科树脂复合材料准静态和动态纳米压痕研究. 武汉理工大学学报,已录用.

5. S.V. Palagummi, T. Hong, Z. Wang, C.K. Moon & M. Chiang*. Resin viscosity determines the condition for a valid   exposure reciprocity law in dental composites. Dental Materials 36:   310-319, 2020.

6. D. Tan, Q. Li, B. Yang, X. Wang, S. Hu, Z. Wang, Y. Lei & L. Xue*. Continuous   gradient nanoporous film enabled by delayed directional diffusion of solvent   and selective swelling. Langmuir 35:   5864-5870, 2019.

7. Z.   Wang*. Spatial and   temporal tunability of magnetically-actuated gradient nanocomposites. Soft   Matter 15:   3133-3148, 2019. (Inside   Back Cover)

8. Z.   Wang*, K. Wang, H.   Huang*, X. Cui, X. Shi, X. Ma, B. Li, Z. Zhang*, X. Tang & M. Chiang.   Bioinspired wear-resistant and ultra-durable functional gradient coatings. Small   14:   1802717, 2018. (Frontispiece   Cover Highlight)

9. C.   Zha, J. Hu, A. Li, S. Huang, H. Liu, G. Chen, Z. Zhang, B. Li* & Z. Wang*. Nanoindentation study on mechanical   properties and curing depth of dental resin nanocomposites. Polymer Composites 40:   1473-1480, 2019.

10. C. Zha, J. Hu, A. Li, S. Huang, H. Liu,   G. Chen, A. Lei, Z. Zhang, B. Li* & Z.   Wang*. Nanoindentation study on mechanical properties of nano-SiO2/dental   resin composites. Journal of Materials Science and Chemical Engineering 6, 57-64, 2018.

11. 张磊,曹佩琳,潘伊莎,陈瑞甜,邹佳沅,赵小娥,王正直 & 陈智. 不同大块充填树脂对II类洞龈壁密合性的影响. 口腔医学研究 34:   319-322, 2018.

12. Z.   Wang*. Slanted   functional gradient micropillars for optimal bioinspired dry adhesion. ACS Nano 12: 1273-1284, 2018.

13. G.   Chen, A. Li, H. Liu, S. Huang, Z. Zhang, W. Liu, C. Zha, B. Li* & Z. Wang*. Mechanical and dynamic   properties of resin blend and composite systems: a molecular dynamics study. Composite   Structures 190: 160-168, 2018.

14. Z. Wang*, K. Wang, W. Xu, X. Gong   & F. Zhang. Mapping the mechanical gradient of human   dentin-enamel-junction at different intratooth locations. Dental   Materials 34:   376-388, 2018. (Issue Highlights of March 2018)

15. X.   Shi, H. Huang*, Z. Wang* & X.   Ma*. Simulation of magnetically-actuated functional gradient nanocomposites. Applied   Sciences 7: 1171,   2017.

16. Z.   Wang*, X. Shi, H.   Huang*, C. Yao, W. Xie, C. Huang, P. Gu, X. Ma, Z. Zhang & L.-Q. Chen. Magnetically   actuated functional gradient nanocomposites for strong and ultra-durable   biomimetic interfaces/surfaces. Materials Horizons 4: 869-877, 2017. (Highlight   Report).

加入武汉大学之前

17. Z.   Wang & M.Y.M. Chiang*.   Correlation between polymerization shrinkage stress and C-factor depends upon   cavity compliance. Dental Materials 32:   343-352, 2016. (Issue Highlights of March 2016)

18. Z.   Wang, F.A. Landis, A.A.M.   Giuseppetti, S. Lin-Gibson & M.Y.M. Chiang*. Simultaneous measurement of   polymerization stress evolution, conversion kinetics, and exotherm in   ream-time. Experimental and Applied Mechanics 4:   149-153, 2016.

19. Y. Guo, F.A. Landis, Z. Wang, D. Bai, L. Jiang & M.Y.M. Chiang*. Polymerization   stress evolution of a bulk-fill flowable composite under different compliances.   Dental   Materials 32:   578-586, 2016.

20. Z.   Wang & M.Y.M. Chiang*.   System compliance dictates the effect of composite filler content on   polymerization shrinkage stress. Dental Materials 32:   551-560, 2016.

21. Z. Wang, P. Gu*, H. Zhang, Z.   Zhang & X.P. Wu. Indenter geometrical effects on sub-micro/nano   indentation and scratch behaviors of polymeric surfaces. Mechanics of Advanced Materials and   Structure 23:   291-300, 2016.

22. Z.   Wang, F.A. Landis, A.A.M.   Giuseppetti, S. Lin-Gibson & M.Y.M. Chiang*, Simultaneous measurement of   polymerization stress and curing kinetics for photo-polymerized composites   with high filler contents. Dental Materials 30:   1316-1324, 2014. (contributed to NIST   Standard Reference Instrument 6005)

23. Z.   Wang, P. Gu*, H. Zhang, Z. Zhang & X.P.   Wu. Finite element modeling of the indentation and scratch response of   epoxy/silica nanocomposites. Mechanics of Advanced Materials and   Structure 21:   802-809, 2013.

24. Z.   Wang*, P. Gu & X.P.   Wu, Gecko-inspired bidirectional double-sided adhesives. Soft   Matter 10:   3301-3310, 2014.

25. Z.   Wang, P. Gu*, X.P. Wu, H.   Zhang, Z. Zhang & M.Y.M. Chiang. Micro/nano-wear studies on epoxy-silica   nanocomposites. Composites Science and Technology 79:   49-57, 2013.

26. Z.   Wang*, P. Gu* & X.P.   Wu. A gecko-inspired double-sided adhesive. Physical   Chemistry Chemical Physics 15: 20764-20770,   2013.

27. Z.   Wang, Y. Xu & P. Gu*.   Adhesive behaviour of gecko-inspired nanofibrillar arrays: combination of   experiments and finite element modelling. Journal of Physics D: Applied   Physics 45:   142001, 2012. (2012 Annual   Highlights)

28. Z. Wang, P. Gu*, Z. Zhang, L. Gu   & Y. Xu. Mechanical and tribological behavior of epoxy/silica   nanocomposites at the micro/nano scale. Tribology Letters 42:   185-191, 2011.

29. Z.   Wang, P. Gu* & Z.   Zhang. Indentation and scratch behavior of nano-SiO2/polycarbonate   composite coating at the micro/nano-scale. Wear 269:   21-25, 2010.

30. 王正直, 辜萍, 杨翀, 缪泓 & 张忠. 基于Matlab图像处理技术计算微纳米级磨损量. 实验力学 24:   389-394, 2009.

31. 王正直 & 辜萍. 纳米复合材料摩擦磨损性能研究进展. 润滑与密封 34:   109-114, 2009.

申请专利和软著:

1. 王正直,王添博,徐磊。一种仿生功能梯度涂层的制备方法,发明专利,申请号:201811485889.1

2. 王正直,刘子阳,陈得锋,鲁家珺,牛奔,周炬诺。一种光聚合反应中材料化学-力学参量实时追踪测试系统、方法及力学参量优化系统、方法,发明专利,申请号:201811556280.9

3. 王正直,倪克,王琨,唐旭海,郭志伟。一种仿生壁虎极端渐进式刚柔梯度微柱结构的制备方法及其应用,发明专利,申请号:201910983856.8

4. 王正直,王琨,倪克。微米级磁性镊子的制备与使用方法,发明专利,申请号:202010330459.3

5. 薛龙建,胡示骐,李倩,石奎,张晶,谭迪,张国栋,王正直。一种仿生减阻船体表面结构,发明专利,申请号:201811502997.5

6. 薛龙建,李倩,胡示骐,石奎,谭迪,苏其信,陈韦嘉,王正直,张国栋。一种仿生微腔减阻结构,发明专利,申请号:201811502513.7

7. 郭志伟,钱忠东,夏伟鹏,王正直。翼型反设计软件[简称:FADS]V1.0,软件著作权,2019SR1087048201910

8. 郭志伟,林依水,钱忠东,王正直。导叶叶轮双调计算软件[简称:DRGVIS]V1.0,软件著作权,2020SR013826420202

主要科研项目

1. 极端梯度微柱阵列的实验调控及其粘附测试与机理研究(国家自然科学基金面上项目,在研)

2. 牙科复合树脂的仿生梯度设计及力学改性研究(国家自然科学基金青年项目,在研)

3. 牙科复合树脂的静动态力学性能研究(湖北省自然科学基金青年项目,已结题(结题等次:优秀))

4. 复合树脂修复牙体缺损中收缩应力的测试与控制(中央高校科研专项学科交叉类项目,在研)

5. 基于光聚合材料的微结构设计与制备(中央高校科研专项青年项目,已结题)

6. 光聚合复合树脂修复牙体中力学问题研究(武汉大学引进人才科研启动项目,已结题)

指导大学生创新创业项目

1. 仿雀尾螳螂虾梯度结构材料的压缩性能研究(国家级,已结题(等级:优秀))

2. 牙科复合树脂的梯度设计及力学性能研究(国家级,在研)

3. 模拟人体口腔环境对牙齿力学性能的影响研究(校级,在研)

4. 光聚合材料静动态力学性能研究(校级,已结题)

5. 牙齿修复内外因素对聚合树脂收缩应力和力学性能影响研究(校级,已结题)

6. 基于纳米压痕技术的牙齿力学性能研究(校级,已结题)

2015年,NIST MML Distinguished   Associate Accolades

2016年,武汉大学土木建筑工程学院优秀班级导师

2017年,武汉大学土木建筑工程学院优秀班级导师、优秀烛光导航师

2018年,武汉大学土木建筑工程学院优秀班级导师、优秀烛光导航师

2019年,武汉大学土木检出工程学院优秀烛光导航师

2019年,武汉大学优秀学士学位论文指导教师

主要社会和

学术兼职

中国力学学会 会员

湖北省力学学会 会员

湖北省复合材料学会 理事


《实验力学》编委,Editorial Board Member for Scientific Reports

担任以下学术期刊审稿人:

ACS Applied Materials &   Interfaces; Lab on a Chip; Journal of Materials Chemistry B; Nanotechnology; Composites   Science and Technology; Dental Materials; Materials Science & Engineering   C; Composite Structures; Smart Materials and Structures; Journal of Physics D:   Applied Physics; Materials Chemistry and Physics; Industrial &   Engineering Chemistry Research; Scientific Reports; PLOS ONE; RSC Advances;   Journal of Experimental Mechanics; ACS Applied Polymer Materials; Journal of   The Electrochemical Society; Journal of Applied Polymer Science; International   Journal of Energy Research; Applied Optics; Polymer Engineering & Science;   Engineering Computations


更新至20207