【个人描述】 

法国巴黎第十大学博士毕业，2011年入职四川大学。在Act Mat., IJF, MSEA, FFEMS等国际杂志发表一作和通讯SCI索引文章十四篇。主持三项国家自然基金项目，参与国家自然基金重大仪器专项。2014年获得四川省自然科学一等奖，2006获得中国人民解放军空军科技进步三等奖。目前为中国材料学会疲劳分会理事，四川省科学与技术带头人后备人选。 

 【发表文章】

[1]Haomin Wang, Ruijie Li, Min Zhou, Julie Cedelle, Zhiyong Huang, Qingyuan Wang, Grain boundary sliding mechanism in plastic deformation of nano-grained YAG transparent ceramics: Generalized self-consistent model and nanoindentation experimental validation, In Journal of the European Ceramic Society, Volume 37, Issue 7, 2017, Pages 2705-2715

[2]Zhiyong Huang, Haomin Wang, Qingyuan Wang, Muhammad Kashif Khan, Micromechanical Modeling of Elastic-Viscoplastic Behavior of Armco-Fe at High Strain Rate, In Acta Mechanica Solida Sinica, Volume 29, Issue 6, 2016, Pages 655-662
[3]Zhi Yong Huang, Han Qing Liu, Hao Min Wang, Danièle Wagner, Muhammad Kashif Khan, Qing Yuan Wang, Effect of stress ratio on VHCF behavior for a compressor blade titanium alloy, In International Journal of Fatigue, Volume 93, Part 2, 2016, Pages 232-237
[4]H.M. Wang, S.J. Jiang, W. Guo, Z.W. Lu, J.Q. Qi, T.C. Lu, Julie. Cedelle, Q.Y. Wang, Z.Y. Huang, The thermal shock behaviors of yb:YAG transparent ceramics, In Ceramics International, Volume 42, Issue 7, 2016, Pages 8804-8808
[5]Zhi Yong Huang, Danièle Wagner, Qing Yuan Wang, Muhammad Kashif Khan, Jean–Louis Chaboche, A low cycle fatigue model for low carbon manganese steel including the effect of dynamic strain aging, In Materials Science and Engineering: A, Volume 654, 2016, Pages 77-84
[6]Huang, Z. ，Wagner, D. ，Bathias, C.，Some metallurgical aspects of Dynamic Strain Aging effect on the Low Cycle Fatigue behavior of C-Mn steels，International Journal of Fatigue，2015，80：113-120
[7]Huang, Z. Y. ，Liu, H. Q.，Wang, C. ，Wang, Q. Y.，Fatigue life dispersion and thermal dissipation investigations for titanium alloy TC17 in very high cycle regime，Fatigue & Fracture of Engineering Materials & Structures，2015，38（11）：1285-1293
[8] Zhi Yong Huang, Qing Yuan Wang, Danièle Wagner, Claude Bathias A very high cycle fatigue thermal dissipation investigation for titanium alloy TC4, Materials Science and Engineering:A,2014,600,1,790-797
[9]Zhi Yong Huang, Wagner, Daniele, Qing Yuan Wang, Bathias Claude, Effect of dynamic strain aging on isotropic hardening in low cycle fatigue for carbon manganese steel, Materials Science and Engineering: A, 2014,589,1,34-40
[10] Zhiyong Huang,Qingyuan Wang,Daniele Wagner, Claude Bathias Effect of low cycle fatigue pre-damage on very high cycle fatigue, Theoretical and Applied Mechanics Letters,2012,2,031007,1-4.
[11]Huang Zhiyong; Wang, Qingyuan; Wagner, Daniele, Bathias,Claude Constitutive model coupled with damage for carbon manganese steel in low cycle fatigue，STEEL AND COMPOSITE STRUCTURES，2014，17(2),185-198
[12] Zhiyong HUANG, Danièle Wagner, Claude Bathias, Jean Louis Chaboche. Cumulative fatigue damage in low cycle fatigue and gigacycle fatigue for low Carbon Manganese steel. International Journal of Fatigue 33 (2011) 115–121
[13]Zhi Yong Huang; Chaboche, J.-L, Bathias,C, Qing Yuan Wang, Effect of carburizing treatment on the “fish eye” crack growth for a low alloyed chromium steel in very high cycle fatigue, Materials Science and Engineering:A, 2013, 559, 1, 790-797
[14]Zhi Yong Huang; Qing Yuan Wang; Daniele Wagner, Claude Bathias, A rapid scatter prediction method for very high cycle fatigue, FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURES,2013,5,36,462-468
[15] Zhi Yong Huang, Danièle Wagner , Claude Bathias, Paul C. Paris. Subsurface Crack Initiation and Propagation Mechanism in the Gigacycle Fatigue. Acta Materialia 58 (2010) 6046–6054
[16] Zhi Yong HUANG, Wei DU, Claude Bathias, Danièle Wagner. Relation between the mechanical behaviour of a high strength steel and the microstructure in gigacycle fatigue, Materials Science Forum Vols (2010) 636-637