常正 - 中国农业大学

个人简介

常正，男，副教授，硕士生导师。理学院应用力学系副主任。于2013年7月在北京理工大学获得固体力学博士学位，导师：胡更开教授；2013年7月- 2015年6月在清华大学工程力学系进行博士后研究，合作导师：冯西桥教授。2015年7月加入中国农业大学应用力学系。主要从事先进材料与结构的固体波动力学研究，在超材料理论与波动控制方法、天然生物材料波动力学等方面积累了多年的研究基础与经验。截至目前，申请者已在JMPS、MSSP、IJSS、EML、PRB、APL、JASA、OE、AMS、AMSS等国内外重要学术刊物发表论文30余篇；撰写专著章节2章；申请国家发明专利5项（2项已获授权）；主持国家自然科学基金青年项目1项、博士后科学基金（一等资助）1项，中国农业大学校内基金7项，参与包括国家自然科学基金重点项目、973子课题、国防科技创新特区项目在内的科研项目7项；曾获2013年北京理工大学优秀博士论文奖，2019年获评中国农业大学人才发展支持计划学术新星。教育经历 2008.09.01-2013.09.01，博士，北京理工大学，固体力学专业 2004.09.01-2008.09.01，学士，北京理工大学，工程力学系工作经历 2015.06.24，中国农业大学讲师 2013.07.01-2015.06.01，清华大学博士后

研究领域

固体波动力学——超材料理论与波动控制方法生物材料力学——天然生物材料力学与仿生

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Shiheng Zhao, Jiaji Chen, Zheng Chang*, Guoliang Huang*: Microstructure realization of a lattice-based polar solid for arbitrary elastic waveguiding. Journal of the Mechanics and Physics of Solids. 2023; (173): 105226. [PDF] Chao Ma#, Shiheng Zhao#, Jianbo Zhang, Zheng Chang*: Tunable and light?weight phononic lattices inspired by spider capture silk. Applied Physics A, 2023; (129): 99. [PDF] Kairu Dong, Yichao Wang, Ruiping Zhang, Zhouheng Wang, Xingwei Zhao, Zheng Chang, Bingwei Lu, and Qian Zhao*: Flexible and Shape-Morphing Plant Sensors Designed for Microenvironment Temperature Monitoring of Irregular Surfaces. Advanced Mateials Technologies, 2022: 2201204. [PDF] Shiheng Zhao#, Tao Feng#, Han Zhang, Yang Gao, Zheng Chang*: Bloch wave propagation in finitely stretched soft lattice. Mechanical Systems and Signal Processing, 2022; (181): 109487. [PDF] Shiheng Zhao, Zheng Chang*: Elastic wave velocities in finitely pre-stretched soft fibers. International Journal of Solids and Structures, 2021; (233): 111208. [PDF] Linli Chen, Chao Ma, Shiheng Zhao, Pingping Zheng, Qian Zhao, Zheng Chang*: Shear-wave manipulation by embedded soft devices. International Journal of Solids and Structures, 2021; 210-211: 136-144. [PDF] Dengke Guo, Zheng Chang*, Gengkai Hu: In-plane semi-linear cloaks with arbitrary shape. Acta Mechanica Solida Sinica 04/2019; 32(3):277-286. [PDF] Yang Guo, Zheng Chang, Bo Li, Zi-Long Zhao, Hong-Ping Zhao*, Xi-Qiao Feng*, Huajian Gao*: Functional gradient effects on the energy absorption of spider orb webs. Applied Physics Letters 09/2018; 113(10):103701. [PDF] Yang Guo#, Zheng Chang#, Hao-Yuan Guo, Wei Fang, Qunyang Li, Hong-Ping Zhao, Xi-Qiao Feng*, Huajian Gao*: Synergistic adhesion mechanisms of spider capture silk. Journal of The Royal Society Interface 03/2018; 15(140):20170894. [PDF] Dengke Guo#, Yi Chen#, Zheng Chang, Gengkai Hu*: Longitudinal elastic wave control by pre-deforming semi-linear materials. The Journal of the Acoustical Society of America 09/2017; 142(3):1229-1235. [PDF] Linli Chen, Zheng Chang*, Taiyan Qin: Elastic wave propagation in simple-sheared hyperelastic materials with different constitutive models. International Journal of Solids and Structures 04/2017; 126:1-7. [PDF] Yan Liu, Zheng Chang*, Xi-Qiao Feng: Stable elastic wave band-gaps of phononic crystals with hyperelastic transformation materials. Extreme Mechanics Letters 11/2016; 11:37-41. [PDF] Zheng Chang, Hao-Yuan Guo, Bo Li, Xi-Qiao Feng*: Response to “Comment on ‘Disentangling longitudinal and shear elastic waves by neo-Hookean soft devices’” [Appl. Phys. Lett. 107, 056101 (2015)]. Applied Physics Letters 08/2015; 107(5):056102. [PDF] Zheng Chang, Hao-Yuan Guo, Bo Li, Xi-Qiao Feng*: Disentangling longitudinal and shear elastic waves by neo-Hookean soft devices. Applied Physics Letters 04/2015; 106(16):161903. [PDF] Fu Liu, Pengjiang Wei, Zheng Chang, Gengkai Hu, Jensen Li*: Quasiconformal maps in transformation optics and their electrostatic analogs. ICCEM2015; 02/2015. [PDF] Wu-Gui Jiang*, Qiu-Wei Fu, Chuan Peng, Zheng Chang, Hong-Ping Zhao*: Fracture behavior of carbon nanotubes containing crack: theoretical and molecular dynamics analysis.Journal of Mechatronics12/2014; 2(4):1-5. [PDF] Zheng Chang, Xiaoning Liu, Gengkai Hu*: Heat flow control by transformation method with grid generation method. Acta Mechanica Solida Sinica 11/2014; 27(5):454-460. [PDF] Zheng Chang, Dengke Guo, Xi-Qiao Feng, Gengkai Hu*: A facile method to realize perfectly matched layers for elastic waves. Wave Motion 11/2014; 51(7):1170-1178. [PDF] Zi-Long Zhao, Hong-Ping Zhao, Zheng Chang, Xi-Qiao Feng*: Analysis of bending and buckling of pre-twisted beams: A bioinspired study. Acta Mechanica Sinica 08/2014; 30(4):507-515. [PDF] Zheng Chang, Xiaoning Liu, Gengkai Hu*, Jin Hu: Transformation ray method: Controlling high frequency elastic waves (L). The Journal of the Acoustical Society of America 10/2012; 132(4):2942-5. [PDF] Zheng Chang, Gengkai Hu*: Elastic wave omnidirectional absorbers designed by transformation method. Applied Physics Letters 07/2012; 101(5):054102. [PDF] Jiao Zhou, Xiaobing Cai, Zheng Chang, Gengkai Hu*: Experimental study on a broadband omnidirectional electromagnetic absorber. Journal of optics 07/2011; 13(8):085103. [PDF] Zheng Chang, Jin Hu, Gengkai Hu*, Ran Tao, Yue Wang: Controlling elastic waves with isotropic materials. Applied Physics Letters 03/2011; 98(12):121904. [PDF] Zheng Chang, Jin Hu, Geng-Kai Hu*: Transformation method and wave control. Acta Mechanica Sinica 12/2010; 26(6):889-898. [PDF] Qibo Deng, Jin Hu, Zheng Chang, Xiaoming Zhou, Gengkai Hu*: Theory and experiment of isotropic electromagnetic beam bender made of dielectric materials. 10/2010; 150:1508-1516. [PDF] Jin Hu, Zheng Chang, Gengkai Hu*: Approximate method for controlling solid elastic waves by transformation media. Physical review. B 08/2010; 84(20):201101(R). [PDF] Zheng Chang, Xiaoming Zhou, Jin Hu, Gengkai Hu*: Design method for quasi-isotropic transformation materials based on inverse Laplace's equation with sliding boundaries. Optics Express 03/2010; 18(6):6089-96. [PDF] Zheng Chang, Xiaoming Zhou, Jin Hu, Gengkai Hu*: Invisible cloak design with controlled constitutive parameters and arbitrary shaped boundaries through Helmholtz's equation: Comment. Optics Express 02/2010; 18(4):3917-8. [PDF] 书籍章节 Jensen Li, Liu Fu, Zheng Chang, Gengkai Hu: Chapter 3 Quasiconformal Transformation Media and Their Electrostatic Analogy. Transformation Wave Physics, 08/2016. Zheng Chang, Jin Hu, Gengkai Hu: Chapter 6 Manipulating Physical Fields by Transformation Materials. Theory and Design of Acoustic Metamaterials, 01/2015.