姓名：张梅

职称：副教授

性别：女

最高学历：博士研究生

学科：固体力学

办公地点：力学楼

联系方式：

电子邮箱：zhangmei1234@whut.edu.cn

研究简历

研究方向：

计算细观力学/新材料力学

研究背景：

以细观力学研究方法为基础，结合加权残值法、边界元法等数值计算方法，研究复合材料界面问题，预测复合材料的宏观力学性能。

项目及成果简介：

参加自然科学基金重大国际合作项目1项，教育部新世纪人才基金项目1项，国家自然科学基金项目重点项目1项，JGXX1项。

研究领域：

1、 新材料力学计算方法

2、 复合材料优化

教育经历

1997-09 – 2001-06 > 工程力学 > 本科 > 学士

2001-09 – 2004-09 > 固体力学 > 研究生 > 硕士

2004-09 – 2008-12 > 固体力学 > 研究生 > 博士

工作经历

2005-09 – 2008-08 > 武汉理工大学 > 助教

2008-09 – 2010-10 > 武汉理工大学 > 讲师

2010-11 – 至今    >武汉理工大学> 副教授

荣誉奖励

[1] 中国力学学会全国徐芝纶力学优秀教师

[2] 武汉理工大学校级精品课教学名师

[3] 全国周培源大学生力学竞赛优秀指导教师

代表性成果

论文：

[1] Minzi Liu, Mei Zhang *, Jiangtao Zhang * , Yanliang Qiao and Pengcheng Zhai, Experimental Investigation on the Effect of Graphene Oxide Additive on the Steady-State and Dynamic Shear Properties of PDMS-Based Magnetorheological Elastomer, Polymers,2021,13,1777.

[2]Jiangtao ZHANG, Yanliang QIAO, Mei ZHANG, Haixiao HU, Pengcheng ZHAI, Shuxin LI, Numerical analysis on process-induced residual stress in thick semi-cylindrical composite shell using a state-dependent viscoelastic model, Applied Composite Materials, 2019, 26:519–532.

[3] 张江涛，夏俊康，张梅，胡海晓，翟鹏程，李书欣，含孔 CFRP 正交层合板的双轴拉伸力学行为，复合材料学报，2019，36(2):322-329.

[4] Yanliang Qiao, Jiangtao Zhang, Mei Zhang, Haixiao Hu, Lisheng Liu, Pengcheng Zhai, Shuxin Li, Numerical analysis on the Flow-Compaction Behavior and the Effect of Interface Permeability in Thick Composite Plates During Autoclave Processing, Journal of Materials Science, 2018, 53: 14412-14422.

[5] 乔炎亮，张梅* ，张江涛，刘立胜，界面渗透率对厚复合材料层板流动-压实过程影响的数值分析, 玻璃钢/复合材料，2017,10:11-16.

[6] 张江涛*，易廷军，张梅，刘立胜，翟鹏程，张清杰，橡胶粘结颗粒材料粘弹性性能的试验研究与离散元模，固体力学学报，2017:38(5)：416-425.

[7] 张江涛*，尚云东，张梅，刘立胜，翟鹏程，李书欣, 复合材料固化相关粘弹性性能演化及残余应力分析, 复合材料学报，2017，34(5):978-986.

[8] Xiang Guo, JiangTao Zhang, Mei Zhang, LiSheng Liu, PengCheng Zhai, QingJie Zhang, Effects of liner properties on the stress and strain along liner/propellant interface in solid rocket motor, Aerospace Science and Technology, 2016, 58: 594–600.

[9] Jiangtao Zhang; Junkang Xia; Mei Zhang; YanliangQiao; Lisheng Liu; Pengcheng Zhai, Tensile fracture mechanism and constitutive models of V-5Cr-5Ti alloy under different strain rate deformation at room temperature, Materials Letters,2016, 183, 40-43.

[10] J.T. Zhang; M. Zhang; S.X. Li; M.J. Pavier; D.J. Smith, Residual stresses created during curing of a polymer matrix composite using a viscoelastic model, Composites Science and Technology, 2016, 13: 20-27.

[11] Li Jian; *Zhang, Mei; Zhang, Jiang-Tao, Numerical simulation of insulation layer ablation in solid rocket motor based on fluent, 2014 International Conference on Mechanics and Mechatronics, ICMM 2014, 2014/5/9-2014/5/11, pp 224-229, Xi’an, Shanxi, China, 2014.

[12] Jiang Tao, Zhang; Dan Ping, Song; Mei, Zhang; Peng Cheng, Zhai, Microstructure deformation and fracture mechanism of highly filled polymer composites under large tensile deformation, 12th International Symposium on Multiscale, Multifunctional and Functionally Graded Materials, FGM 2012, 2012/10/22-2012/10/26, Beijing, China, 2013.

[13] Zhang, Mei; Zhang, Jiangtao; Zhai, Pengcheng; Liu, Lisheng; Shi, Huiji, Numerical simulation on the interface debonding in solid propellant under large deformation by a cohesive zone model, International Journal of Materials and Product Technology, 2011, 42(1-2): 98-109, 2011.

[14] Zhang, Jiangtao; Zhang, Mei; Zhai, Pengcheng; Liu, Lisheng; Shi, Huiji, Numerical simulation on the impact resistance of functionally graded materials, International Journal of Materials and Product Technology, 2011,42: 87-97.

[15] *Zhang, Mei; Zhai, Pengcheng,Spline Subdomain Approach to Thermal Conduction Problem for Composite with Rectangular Shape Particle, International Conference on Advances in Materials and Manufacturing Processes, 2010/11/6-2010/11/8, pp 454-458, Shenzhen, PEOPLES R CHINA, 2011.

[16] M. Zhang, J.T.Zhang, Effective Thermal Conductivity of Composites with Different Particle Geometries and Interfacial Thermal Resistance, Advanced Materials Research, Vol.152-153,(2011) pp269-273.

[17]M. Zhang, P. C. Zhai and Q. J. Zhang. The Effective Conductivity of Multiphase Composites with Imperfect Thermal Contact at Constituent Interfaces. Materials Science Forum, Vols. 631-632 (2010) pp 127-132.

[18]M. Zhang, P. C. Zhai, and Q. J. Zhang. Computational Evaluation of Effective Conductivity of Particulate Composites with Imperfect Interfaces. Materials Science Forum, Vols. 631-632 (2010) pp 35-40.

[19]M. Zhang, J.T.Zhang, P. C. Zhai. BEM Simulation for Steady-state Temperature Distributions of Particulate Composites with Imperfect Interfaces. Proceeding of ISCM-EPMESC-2009(AIP).

[20]M. Zhang, P. C. Zhai, et al. Effective thermal conductivity of particulate composites with different particle configurations, Multiscale and Functionally Graded Materials - AIP Conference Proceedings, 2008, CP973, pp141-146. 

[21]M. Zhang, P. C. Zhai, et al. The effect of imperfect inner interface on the stress fields of three-phase composite materials. Key Engineering Materials Vols. 324-325(2006) pp.983-986.

[22]M. Zhang, P. C. Zhai and Q. J. Zhang, Effective thermal conductivity of functionally graded composite with arbitrary geometry of particulate. Key Engineering Materials Vols. 297-300(2005) pp 1522-1528.