張振

2012.9-2017.5 同濟大學，博士

2015.5-2015.10 德國斯圖加特大學，訪問學者

2016.9-2017.2 美國佐治亞理工學院，訪問學者

結構材料失效行為分析（疲勞、蠕變和應力腐蝕等）

材料成型CAE技術及應用

CAD/CAM技術

模具失效分析

國家自然科學基金，海洋工程超高強鋼腐蝕疲勞裂尖微結構演化與力化關聯性研究，主持

江蘇省高等學校自然科學研究面上項目，海洋工程超高強鋼高低頻疲勞累計損傷及裂紋微觀機制研究，主持

1. Zhang, Z.F.Hu, S.Schmauder. (2018) Chapter: FatigueBehavior of 9-12%Cr Ferritic-Martensitic Steel.In:Hsueh CH.et al. (eds)Handbook of Mechanics of Materials. Springer, Singapore. 1-46.

2. ZhenZhang, Zheng-fei Hu, Liang He et al. Effects of chloride on electrochemicaland stress corrosion cracking behavior of 9Cr ferritic-martensitic steel, J iron steel resinter ,2020,27:719-731.

3. Zhen Zhang, Haoyun Tu, Zhengfei Hu et al.Experimental and numerical investigation of low cycle fatigue behavior of 9Crferritic-martensitic steel at room temperature, Materials Design and Processing Communication,2020,2:e1301-10.

4. Z. Zhang, Jun Zhu, Yajie Chu, ZhengnianChen, Shun Guo, Junqiang Xu, Correlation between microstructure and failuremechanism of Hyriopsis cumingii shell structure, Journal of Bionic Engineering,2019,16:869-881.

5.Zhen Zhang, Zhengfei Hu, Siegfried Schmauder et al, Low cycle fatigueproperties and microstructure of P92 ferritic-martensitic steel at roomtemperature and 873 K, Materials Characterization 157 (2019) 109923

6. Z. Zhang, Z.F. Hu, P.M. Singh, X. Li,S. Xiong, Microstructure Evolution and Stress Corrosion Cracking Susceptibility of12Cr Martensitic Steel Upon Long-Term Service in Power Plants, Journal of Materials Engineering and Performance , 2019, 28: 995–1006.

7.Z.F.Hu, Z. Zhang, Investigation the effect of precipitatingcharacteristics on the creep behavior of HR3C austenitic steel at 650 ℃, Mater Sci Eng A, 2019,742:451-463.

8.Z. Zhang, Z.F.Hu, L.F.Zhang, P.M.Singh, Effect of temperature anddissolved oxygen on stress corrosion cracking behavior of P92 martensitic steelin supercritical water , J Nucl Mater,2018,498:89-102.

9.Z. Zhang, Z.F.Hu, H.Y.Tu, S. Schmauder, G.X.Wu, Microstructure evolutionin HR3C austenitic steel during long-term creep at 650 degrees C, Mater Sci Eng A, 2017,681:74-84.

10.Z. Zhang, Z.F. Hu, S. Schmauder, Cyclic behavior of 12Cr ferritic-martensiticsteel upon long-term on-site service in power plants, Fatigue Fracture Eng Mater Structure, 2016,3:1-14.

11. Z. Zhang, Z.F.Hu, S. Schmauder, M.Mlikota, Low cycle fatigue properties of P92 ferritic-martensitic steel atelevated temperature, J Mater Eng Perform,2016,25:1650-1662.

12. Z. Zhang, P.M.Singh, Z.F.Hu, Thecorrosion behavior of 9Cr ferritic-martensitic heat-resistant steel in waterand chloride environment, J.Eng. Mater. Tech., 2015,137:031009-1-7.

13. Z. Zhang, Z.F.Hu, Low cycle fatiguebehavior and cyclic softening of P92 ferritic-martensitic steel, J ironsteel res inter, 2015,22:534-542.