天津大学化工学院导师教师师资介绍简介-张　喆

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张　喆现任职称/职务：副教授（硕导）
通讯地址：天津大学50楼C115
电子邮箱：zhe.zhang@tju.edu.cn
办公电话：
研究方向: （1）金属材料力学行为及疲劳；
（2）基于荧光法的无损检测方法研究；
（3）压力容器和管道的安全评定；
（4）聚合物老化及力学行为的研究。

张　喆现任职称/职务：副教授（硕导）
通讯地址：天津大学50楼C115
电子邮箱：zhe.zhang@tju.edu.cn
办公电话：
讲授课程: 本科生：化工机械基础（48学时）
化工机械基础（全英文）
研究生：化工设备失效分析（32学时）

张　喆现任职称/职务：副教授（硕导）
通讯地址：天津大学50楼C115
电子邮箱：zhe.zhang@tju.edu.cn
办公电话：
学术兼职: 天津市力学学会复合材料专业委员会委员；中国材料研究回镁合金分会青年委员会委员；Polymer Science and Engineering，Journal of Alloys and Compouds, InternationalJournal of Fatiuge等期刊审稿人。

张　喆现任职称/职务：副教授（硕导）
通讯地址：天津大学50楼C115
电子邮箱：zhe.zhang@tju.edu.cn
办公电话：
学术成就: 2017年天津大学“沈志康奖教金”。
2018年天津大学北洋青年骨干教师

张　喆现任职称/职务：副教授（硕导）
通讯地址：天津大学50楼C115
电子邮箱：zhe.zhang@tju.edu.cn
办公电话：
科研项目: 1. 国家自然科学基金青年项目（E050401）：调和组织结构不锈钢的疲劳性能及失效机制研究（负责人）
2. 国家自热科学基金地区项目（A020303）：稀土填充硫化天然橡胶热老化多轴疲劳性能及寿命预测研究（合作单位负责人）

张　喆现任职称/职务：副教授（硕导）
通讯地址：天津大学50楼C115
电子邮箱：zhe.zhang@tju.edu.cn
办公电话：
论著专利: [30] R. Zheng*, M. Liu, Z. Zhang*, K. Ameyama, C. Ma, Towards strength-ductility synergy througth hierarchical microstructure design in an austenitic stainless steel, Scripta Materiallia 169 (2019) 76-81.
[29]G. Zhou, H. Ma, Z. Zhang*, J. Sun, X. Wang, P. Zeng, R. Zheng, X. Chen, K. Ameyama. Fatigue crack growth behavior in a harmonic structure designed austenitic stainless steel,Materials Science & Engineering A 758 (2019) 121-129.
[28]R. Zheng, G. Li, Z. Zhang, Y. Zhang, S. Yue, X. Chen, K. Ameyama, C. Ma,Manipulating the powder size to achieve enhanced strength and ductility in harmonic structured Al alloy,Materials Research Letters 7(2019)217-224.
[27]X. Chen, Y. Shen, S. Fu, D. Yu, Z. Zhang, G. Chen, Size effects on uniaxial tension and multiaxial ratcheting of oligo-crystalline stainless steel thin wires,International Journal of Fatigue 116 (2018) 163-171
[26] Z. Qiu, W. Zhao, M. Cao, Y. Wang, J.W.Y. Lam, Z. Zhang*, X. Chen, B.Z. Tang*, Dynamic visualization of stress/strain distribution and fatigue crack propagation by an organic mechanoresponsive AIE luminogen, Advanced Materials 30 (2018) **. (Frontispiece)
[25] Z. Zhang*, J. Sun, Y. Lai, Y.P. Wang*, X. Liu, S. Shi, X. Chen, Effects of thermal aging on uniaxial ratcheting behavior of vulcanised natural rubber, Polymer Testing 70 (2018) 102-110.
[24] H. Gao, J. Wang, F. Li, L.L. Gao*, Z. Zhang*, Uniaxial and biaxial ratcheting behavior of ultra-high molecular weight polyethylene, Materials Science and Engineering C 89 (2018) 295-306.
[23] J. Hu, H. Gao*, Y. Meng, Z. Zhang*, L.L. Gao, Effects of free-end torsion on the microstructure evolution and fatigue properties in an extruded AZ31 rod, Materials Science and Engineering A 726 (2018) 215-222.
[22] X. Chen, B. Ren, D. Yu, B. Xu, Z. Zhang*, G. Chen, Uniaxial low cycle fatigue behavior for pre-corroded 16MND5 bainitic steel in simulated pressurized water reactor environment, Journal of Nuclear Materials 504 (2018) 267-276.
[21] Z. Zhang, S. Shi*, Q. Lin, L. Wang, Z. Liu, P. Li, X. Chen, Exploring the role of reinforcement in controlling fatigue crack propagation behavior of perfluorosulfonic-acid membranes, International Journal of Hydrogen Energy 43 (2018) 6379-6389.
[20] S. Shi, Z. Zhang*, X. Wang, G. Zhou, G. Xie, X. Chen, K. Ameyama, Microstructure evolution and enhanced mechanical properties in SUS316LN steel produced by high presssure torsion at room temperature, Materials Science and Engineering A 711 (2018) 476-483.
[19] Z. Zhang*, H. Ma, R. Zheng, Q. Hu, M. Nakatani, M. Ota, G. Chen, X. Chen, C. Ma, K. Ameyama, Fatigue behavior of a harmonic structure designed austenitic stainless steel under uniaxial loading, Materials Science and Engineering A 707 (2017) 287-294.
[18] G. Chen, X. Zhang, D.K. Xu, D.H. Li, X. Chen, Z. Zhang*, Multiaxial ratcheting behavior of zirconium alloy tubes under combined cyclic axial load and internal pressure, Journal of Nuclear Materials 489 (2017) 99-108.
[17] W.P. Wang, Y.Z. Liu, Z. Zhang*, C. Wang, S. Shi, X. Chen, Mechanical properties of cerium oxide-modified vulcanised natural rubber at elevated temperature, Plastics, Rubber and Composites 46 (2017) 306-313.
[16] H. Gao, W.B. Ye, Z. Zhang, L.L Gao*, Ratcheting behavior of ZEK100 magnesium alloy with various loading conditions and different immersing time, Journal of Materials Research 32 (2017) 2143-2152.
[15] S. K. Vajpai*, M. Ota, Z. Zhang, K. Ameyama, Three-dimensionallygradient harmonic structure design: an integrated approach for high performancestructural materials, Materials Research Letters 2016 http://dx.doi.org/10.1080/**.2016.**
[14] R. Zheng, Z. Zhang*, M. Nakatani, M. Ota, X. Chen, C. Ma, Kei Ameyama,Enhanced ductility in harmonic structure designed SUS316L produced by highenergy ball milling and hot isostatic sintering, Materials Science and Engineering A 674 (2016) 212-220.
[13] J. Zhang, D. Yu, Z. Zhao, Z. Zhang, G. Chen, X. Chen*, Lowcycle fatigue of 2.25Cr1Mo steel with tensile and compressed hold loading at elevatedtemperature, Materials Science and Engineering A 667 (2016)251-260.
[12] H. Gao, W. Zhang,Z. Zhang, L. Gao*, G. Chen,Study on fatigue life and electrical property of COG assembly underthermal-electric-mechanical coupled loads, Microelectronics Reliability 56 (2016) 148-154.
[11] H. Cheng, G. Chen, Z. Zhang, X. Chen*, Uniaxialratcheting behaviors of Zircaloy-4 tubes at 400 degrees C, Journal of Nuclear Materials 458 (2015) 129-137.
[10] W. Zhang, J. Ma, L. Gao, Z. Zhang, H. Gao*, Fatigue lifeand resistance analysis of COG assemblies under hygrothermal aging，Microelectronics Reliability 55 (2015)623-629.
[9]Z. Zhang,D. Orlov*, S.K. Vajpai, B. Tong, K. Ameyama, “Importance of BimodalStructureTopology in theControl of Mechanical Properties of a Stainless Steel”,Advanced Engineering Materials17(2015)791-795.
[8]Z. Zhang,S.K. Vajpai, D. Orlov*, K. Ameyama, “Improvement of mechanical propertiesin SUS304L steel through the control of bimodal microstructurecharacteristics”,Materials Science & Engineering A598 (2014) 106-113.
[7]Z. Zhang*,M. Rifai, H. Kobayakawa, O.P. Ciuca, H. Fujiwara, A. Ueno, K. Ameyama,“Effects of SiO2 Particles on Deformation of Mechanically Milled Water-AtomizedSUS304L Powder Compacts”,Materials Transactions53 (2012) 109-115.
[6] K. Ameyama, T. Sekiguchi, H.Fujiwara,Z. Zhang, “Microstructure and Mechanical Propertiesof Hetero-Structure Metallic Materials Produced by Harmonic Structure Design”,Tetsu To Hagane-ISIJ, 98 (2012) 739-744
[5] A Ueno, H Fujiwara, M Rifai,Z. Zhang, K Ameyama,Fractographical analysis on fracture mechanism of stainless steel havingharmonic microstructure,Journal of the Society of Materials Science, Japan61 (2012) 686-691.
[4]Z. Zhang, X. Chen, Y.Wang, “Uniaxial ratcheting behavior of polytetrafluoroethylene at elevatedtemperature”,Polymer Testing29(2010)352-357.
[3]Z. Zhang, X. Chen,“Multiaxial ratcheting behavior of PTFE at room temperature”,Polymer Testing28 (2009) 288-295.
[2]Z. Zhang, X. Chen, T.Wang, “A simple constitutive model for cyclic compressive ratchettingdeformation of polyterafluoroethylene (PTFE) with stress rate effects”,PolymerEngineering and Science48 (2008) 29-36.
[1] H. Fujiwara, M. Nakatani, T.Yoshida,Z. Zhang, K. Ameyama, “Outstanding mechanical properties in the materials with anano/meso hybrid microstructure”,Materials Science Forum 584-586 (2008) 55-60.

张　喆现任职称/职务：副教授（硕导）
通讯地址：天津大学50楼C115
电子邮箱：zhe.zhang@tju.edu.cn
办公电话：
合作交流: （1）日本立命馆大学理工学部飴山恵（Kei Ameyama）教授建立长期合作关系。
（2）香港科技大学化学系唐本忠教授课题组建立长期合作关系。