發布者:         發布時間:2018-11-09 09:50         瀏覽次數:


教授 博士生導師


張楨在新加坡國立大學土木系取得博士學位。論文方向為系統識別與結構健康監測。2010-2013年在新加坡國立大學土木系擔任研究員,從事地震與結構工程的工作。2014-2018年在英國帝國理工大學材料系做博后ag环亚真人网娱乐,從事微觀力學,材料學,結構疲勞與斷裂的研究。同年5月在英國布里斯托大學機械系擔任博士后研究員。研究下一代核電結構的長期響應。201811月起擔任華中科技大學教授,博導 。 張楨教授對微觀結構力學,材料學,結構疲勞ag环亚真人网娱乐,結構振動與健康監測等課題進行了研究,解決了相關領域多個重大工程中有趣的科學問題。


1. 可持續材料與結構

2. 微觀力學

3. 極端環境下材料與結構的響應

4. 疲勞與斷裂

5. 系統識別,結構動力學,健康監測與防災減災ag环亚真人网娱乐,結構的長期響應與安全預警





Professor Zhen Zhang (BEng, MEng, PhD)


Contact address:

School of Civil Engineering and Mechanics

Huazhong University of Science and Technology, China


Zhen was trained as a civil engineer in his early career. He graduated from Huazhong University of Science and Technology and Wuhan University of Technology, China, with BEng and MEng degrees, respectively.  After obtaining PhD degree, from the Department of Civil Engineering at National University of Singapore, Dr Zhang worked as research associate and research fellow at Singapore, London and Bristol, respectively. Starting from 2018, Dr Zhang was appointed as full professor at the School of Civil Engineering and Mechanics, Huazhong University of Science and Technology, China.  His research interests are in the areas of sustainable materials and structures, fracture and fatigue, micromechanics, material and structural responses under extreme conditions, structural dynamics, system identification and structural health monitoring.

Selected publications

[1] Zhang, Z. and Dunne, F. P. E. (2018). Phase morphology, variants and crystallography of alloy microstructures in cold dwell fatigue. International Journal of Fatigue, 113:324-334. [SJR ranking,Q1, Impact factor, 3.132.] (Elsevier Most Downloaded (Top25) papers)

[2] Zhang, Z., Lunt, D., Abdolvand, H., Preuss, M., Wilkinson, A. J. and Dunne, F. P. E. (2018). Quantitative investigation of micro slip and localization in polycrystalline materials under uniaxial tension. International Journal of Plasticity, 108: 88-106. [SJR ranking, Q1,Impact factor, 5.502.] (Elsevier Most Downloaded (Top25) papers)

[3] Zhang, Z. and Dunne, F. P. E. (2017). Microstructural heterogeneity in rate dependent plasticity of multiphase titanium alloys. Journal of the Mechanics and Physics of Solids, 103:199-220. [SJR ranking, Q1, Impact factor, 3.566.]

[4] Zhang, Z., Jun, T-S, Britton, T. B., Dunne, F. P. E. (2016). Determination of Ti-6242 alpha and beta slip properties using micro-pillar test and computational crystal plasticity. Journal of the Mechanics and Physics of Solids, 95:393-410. [SJR ranking, Q1, Impact factor, 3.566.]

[5] Zhang, Z., Eakins, D., Dunne, F. P. E. (2015). On the formation of adiabatic shear bands in textured HCP polycrystals. International Journal of Plasticity, 79:196-216. [SJR ranking, Q1, Impact factor, 5.502.] (Elsevier Most Downloaded (Top25) papers)

[6] Zhang, Z.,Wang, C. M. and Challamel, N. (2014). Eringens length scale coefficient for buckling of nonlocal rectangular plates from microstructured beam-grid model. International Journal of Solids and Structures, 51(25-26): 4307-4315. [SJR ranking, Q1, Impact factor,2.566.]

[7] Challamel, N., Zhang, Z., Wang, C. M., Reddy, J. N., Wang, Q., Michelitsch, T. and Collet,B. (2014). On nonconservativeness of Eringens nonlocal elasticity in beam mechanics: correction from a discrete-based approach. Archive of Applied Mechanics, 84(9-11):1275-1292. [SJR ranking, Q1, Impact factor, 1.467.]

[8] Zhang, Z., Balendra, T. (2013). Passive control of bilinear hysteretic structures by tuned mass damper for narrow band seismic motions. Engineering Structures, 54: 103-111. [SJR ranking,Q1, Impact factor, 2.755.]

[9] Zhang, Z., Koh, C. G, and Perry, M. J. (2012). Frequency domain substructural identification for arbitrary excitations. Earthquake Engineering and Structural Dynamics, 41: 605-621. [SJR ranking, Q1, Impact factor, 2.807]

[10] Zhang, Z., Koh, C. G., and Duan, W. H. (2010). Uniformly sampled genetic algorithm with gradient search for structural identification, Part II: local Search, Computers and Structures,88:1149-1161. [SJR ranking, Q1, Impact factor, 2.887.]