副教授(副高职)

张娟娟

职  称:副教授
职  务:
专  业:固体力学
所在系所:固体力学研究所
通讯地址:甘肃省兰州市天水南路222号兰州大学土木工程与力学学院,730000
电子信箱: zhangjuanjuan@lzu.edu.cn
联系电话:13893339084
传  真:
主要学历
2005.09-2009.06兰州大学土木工程与力学学院理论与应用力学专业学习获得学士学位
2009.09-2014.06兰州大学土木工程与力学学院固体力学专业学习获得博士学位
主要学术经历
2019.12-至今 兰州大学土木工程与力学学院 副教授
2018.3-2019.3 美国罗格斯大学 访问学者
2014.7-2019.11 兰州大学土木工程与力学学院 讲师
主要研究方向
电磁固体力学、功能复合材料
主要讲授课程
结构力学、断裂力学、材料力学、连续介质力学、电磁固体力学、大型计算软件、分子与细胞生物力学
招生专业
0801 力学
080102 固体力学
主要学术成就、奖励及荣誉
荣获2022-2023甘肃省优秀硕士论文指导教师
荣获兰州大学2021年度本科毕业论文优秀指导教师
荣获2016年、2020年兰州大学学生创新创业行动计划“优秀指导教师”
荣获第12、13、14届全国周培源大学生力学竞赛“优秀指导教师”
荣获兰州大学第五届青年教师教学竞赛优秀奖
主要科研项目及角色

1.聚合物基磁电复合材料的跨尺度多场耦合机理研究,“国家自然科学基金”面上项目,2024.01-2027.12,52万元,项目负责人

2.寒旱地区透水混凝土关键技术研究与应用,横向课题,2023.6-2024.126万元,项目负责人

3. 0-3型磁电复合材料的磁电传感机理研究,“中央高校基本科研业务费专项资金”定向探索项目,2022.07-2024.0620万元,项目负责人

4.石墨烯/PVDF复合材料力电性能研究,西部灾害与环境力学教育部重点实验室开放基金,2022.1-2022.124万元,项目负责人

5.石墨烯/PVDF复合材料力-电特性的理论研究,机械结构强度与振动国家重点实验室开放基金,2021.11-2023.105万元,项目负责人

6.功能梯度磁电复合材料自偏磁电耦合特性的研究,磁学与磁性材料教育部重点实验室开放基金,2020.1-2020.122万元,项目负责人

7.薄膜磁电复合材料磁-力-电耦合的非线性动力学行为研究,“国家自然科学基金”青年科学基金项目,2018.01-2020.12,25万元,项目负责人

8.层状磁电复合材料的非线性磁电特性研究及器件设计,“中央高校基本科研业务费专项资金”自由探索项目,2016.06-2017.12,10万元,项目负责人

9.基于磁电效应的弱磁探测传感器机理研究,兰州大学特殊功能材料与结构设计教育部重点实验室(B类)开放课题基金,2015.06-2016.06,2万元,项目负责人

10.磁滞效应及温度对磁电复合材料磁电效应的影响,“中央高校基本科研业务费专项资金”自由探索项目,2013.06-2015.06,2万元,项目负责人

代表性论著
  1. Xuhao Chen, Juanjuan Zhang*, Yuanwen Gao and George J. Weng*, Correlation between meso-structures and magnetoelectric properties in 0-3 magnetoelectric composites, International Journal of Mechanical Sciences, 2024, 2624: 108746
  2. Juanjuan Zhang*, Xuhao Chen, Xiaoqiang Wang, Chao Fang and George J. Weng*, Magnetic, mechanical, electrical properties and coupling effects of particle reinforced piezoelectric polymer matrix composites, Composite Structures, 2023, 304: 116450
  3. Chao Fang, Xiqu Chen, Juanjuan Zhang, Xiaodong Xia and George J. Weng*, Study of electromagnetic interference shielding effectiveness of multilayer graphene films by Monte Carlo method, Journal of Physics D Applied Physics, 2023, 56: 045301
  4. Chenwei Qi, Juanjuan Zhang, Ana-Sunčana Smith and Long Li*, Stochastic dynamics of substrate non-uniform stiffness affecting molecular adhesion in cell–substrate interface subjected to tensile loading. Journal of Applied Physics, 2023, 133, 224702
  5. Han Du, Juanjuan Zhang, Chao Fang and George J. Weng*, Modeling the evolution of graphene agglomeration and the electrical and mechanical properties of graphene/polypropylene nanocomposites, Journal of Applied Polymer Science, 2023, 140:e53292
  6. 张娟娟*,面向力学专业的结构力学课程建设探索,高教学刊,20231995-99
  7. 贾晓东, 钱丰学, 他吴睿, 赵行, 王小强 张娟娟*激光在高速流场中的传输及衰减特性,红外与激光工程, 202352(11), 20230150.
  8. Juanjuan Zhang*, Xiaoqiang Wang, Xuhao Chen, Xiaodong Xia and George J. Weng*, Piezoelectricity enhancement in graphene/polyvinylidene fluoride composites due to graphene-induced α β crystal phase transition, Energy Conversion and Management, 2022, 269(13): 116121
  9. Juanjuan Zhang*, Xiaoqiang Wang, Xuhao Chen, Xiaodong Xia and George J. Weng*, Finite element analysis of the magnetoelectric effect on hybrid magnetoelectric composites, Composite Structures, 2022, 296: 115876
  10. Yuxuan Qi1, Chang Yao1, Haotian Xu1, Juanjuan Zhang* and George J. Weng*, Phase-field simulations on the frequency-dependent evolution of nano-magnetic domains and hysteresis loops of ferromagnetic Terfenol-D, Materials Today Communications 2022, 32(1–2):103849
  11. Ruiyu Song, Juanjuan Zhang* and George J. Weng*. Three-dimensional finite element simulation of magnetic-mechanical-electrical coupling in layered cylindrical multiferroic structures. Mechanics of Materials, 2022, 175: 104476.
  12. Xiaodong Xia, Zijian Du, Juanjuan Zhang, Jackie Li and George J. Weng*, Modeling the impact of glass transition on the frequency-dependent complex conductivity of CNT-polymer nanocomposites, Mechanics of Materials, 2022, 165:104195. 
  13. Xiaodong Xia, Shijun Zhao, Juanjuan Zhang, Chao Fang and George J. Weng*, A unified investigation into the tensile and compressive sensing performance in highly sensitive MWCNT/epoxy nanocomposite strain sensor through loading-dependent tunneling distance, Composites Science and Technology, 2022, 230(15):109723
  14. Han Du, Chao Fang, Juanjuan Zhang, Xiaodong Xia and George J. Weng*, Segregated carbon nanotube networks in CNT-polymer nanocomposites for higher electrical conductivity and dielectric permittivity, and lower percolation threshold, International Journal of Engineering Science, 2022, 173(1):103650
  15. Xiaoqiang Wang1, Juanjuan Zhang1*, Xiaodong Xia, Chao Fang and George J. Weng*, Nonlinear magnetoelectric effects of polymer-based hybrid magnetoelectric composites with chain-like Terfenol-D/epoxy and PVDF multilayers, Composites Science and Technology, 2021, 216 :109069.
  16. Xiaoqiang Wang, Juanjuan Zhang*, Wurui Ta, xiaodong Xia and George. J Weng*, Surface and interface effects on the bending behavior of nonlinear multilayered magnetoelectric nanostructures, Composite Structures, 2021, 275: 114485
  17. Chao Fang, Xiqu Chen, Juanjuan Zhang, Xiaodong Xia and George J. Weng*, Monte Carlo method with Bezier curves for the complex conductivity of curved CNT-polymer nanocomposites, International Journal of Engineering Science, 2021, 168: 103543
  18. Xiaodong Xia, Zijian Du, Juanjuan Zhang, Jianjun Li* and George J. Weng*, A hierarchical scheme from nano to macro scale for the strength and ductility of graphene/metal nanocomposites, International Journal of Engineering Science, 2021, 162: 103476
  19. Xiaodong Xia*, Jackie Li, Juanjuan Zhang and George J. Weng*, Uncovering the glass-transition temperature and temperature-dependent storage modulus of graphene-polymer nanocomposites through irreversible thermodynamic processes, International Journal of Engineering Science, 2021, 158: 103411
  20. Juanjuan Zhang, Han Du, Xiaodong Xia, Chao Fang, George J. Weng*, Theoretical study on self-biased magnetoelectric effect of layered magnetoelectric composites, Mechanics of Materials, 2020, 151:103609.
  21. Juanjuan Zhang, George J. Weng*, Xiaodong Xia, Chao Fang, A theory of frequency dependence and sustained high dielectric constant in functionalized graphene-polymer nanocomposites, Mechanics of Materials, 2020, 144: 103352.
  22. Chao Fang, Juanjuan Zhang, Xiqu Chen and George J. Weng*, Calculating the Electrical Conductivity of Graphene Nanoplatelet Polymer Composites by a Monte Carlo Method, Nanomaterials, 2020, 10: 1129
  23. Xiaodong Xia, George J. Weng Juanjuan Zhang and Yang Li, The effect of temperature and graphene concentration on the electrical conductivity and dielectric permittivity of graphene–polymer nanocomposites, Acta Mechanica, 2020, 231: 1305-1320
  24. Juanjuan Zhang, Yan Kang, Yuanwen Gao, George J. Weng*, Experimental investigation of the magnetoelectric effect in NdFeB-driven A-line shape Terfenol-D/PZT-5A structures, Materials, 2019, 12(7): 1055.
  25. Juanjuan Zhang, Chao Fang, George J Weng*, Direct and converse nonlinear magnetoelectric coupling in multiferroic composites with ferromagnetic and ferroelectric phases, Proceedings of Royal Society A-Mathematical Physical and Engineering, 2019, 475(2225): 20190002.
  26. Juanjuan Zhang, Chao Fang, George J Weng*, Three dimensional phase-field simulations on the frequency dependence of polarization vectors and hysteresis loops in ferroelectric crystals, Journal of Applied Physics, 2019, 125(8):084102
  27. Chao Fang, Juanjuan Zhang, Xiqu Chen, George J. Weng*, A Monte Carlo model with equipotential approximation and tunneling resistance for the electrical conductivity of carbon nanotube polymer composites. Carbon, 2019,149: 125-138
  28. Jianbiao Wen, Juanjuan Zhang* and Yuanwen Gao. Multiple broadband magnetoelectric respones in Terfenol-D/PZT structure, Chinese Physics B, 2018, 27(2): 027702
  29. Jian Han, Juanjuan Zhang and Yuanwen Gao*. A nonlinear magneto-mechanical-thermal-electric coupling model of Terfenol-D/PZT/Terfenol-D and Ni/PZT/Ni laminates, Journal of Magnetism and Magnetic Materials, 2018, 466: 200-211.
  30. Juanjuan Zhang*, Effect of boundary conditions on magnetocapacitance effect in a ring-type magnetoelectric structure. Physics Letters A, 2017, 381: 3909-3916
  31. Juanjuan Zhang*, Yan Kang, Yang Yu and Yuanwen Gao*. Enhancement of the magnetoelectric coupling in an Aline shape magnetostrictive/piezoelectric structure. Physics Letters A, 2017, 381: 1-9
  32. Jianbiao Wen, Juanjuan Zhang and Yuanwen Gao*. A coupling finite element model for analysis the nonlinear dynamic magnetoelectric response of tri-layer laminate. Composite Structures, 2017, 166: 163-176
  33. Juanjuan Zhang, Jianbiao Wen and Yuanwen Gao*. A nonlinear model for magnetocapacitance effect in PZTring/Terfenol-D-strip magnetoelectric composites. AIP Advances, 2016, 6: 065318
  34. Juanjuan Zhang and Yuanwen Gao*, Effects of hysteresis and temperature on magnetoelectric effect in giant magnetostrictive/piezoelectric composites. International Journal of Solids and Structures, 2015, 69-70: 291-304
  35. Rui Ding, Xingliang Su, Juanjuan Zhang, Yuanwen Gao*. Tunability of longitudinal wave band gaps in one dimensional phononic crystal with magnetostrictive material. J. Appl. Phys. 2014, 115, 074104
  36. Yuanwen Gao* and Juanjuan Zhang. Nonlinear magnetoelectric transient responses of a circular-shaped magnetoelectric layered structure. Smart Materials and Structures, 2013, 22, 015015
  37. 师阳, 张娟娟, 高原文*.层状柱壳磁电复合材料的非线性磁电效应研究.固体力学学报. 2013, 5: 441-449
  38. Yuanwen Gao* and Juanjuan Zhang. Nonlinear magneto-electric response of a giant magnetostrictive/piezoelectric composite cylinder. Acta Mechanica Sinica. 2012, 28: 385-392
  39. 张娟娟, 高原文*.界面及热残余应力对超磁致伸缩复合材料有效性能的影响.固体力学学报. 2012, 33, 136-145
  40. 40.Yuanwen Gao* and Juanjuan Zhang. The effective properties of 3-D giant magnetostrictive composites. Journal of Applied Physics. 2011, 110, 114121