张喆 - 天津大学 - 化工学院

个人简介

Education Background： Doctor of Engineering| Ritsumeikan University| Mechanical Engineering| 2014 Master of Engineering| Ritsumeikan University| Mechanical Engineering| 2009 Master of Engineering| Tianjin University| Chemical Process Equipment| 2007 Bachelor of Engineering| Tianjin University| Process Equipment and control engineering | 2005 Positions & Employments： 2014.9-Now School of Chemical Engineering and Technology | Tianjin University | Lecture 2009.10-2014.9 Reseach and Devolopment Center | Dainippon Screen MFG | Engineer 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）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科研项目: 国家重点研发计划课题：氯碱化工生产装备隐蔽性损伤演化规律及预测技术研究国家自然科学基金面上项目（E0504）：基于有机力致发光材料的多轴疲劳寿命预测方法研究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）

研究领域

（1）金属材料力学行为及疲劳；（2）基于力响应发光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。

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）

L. Shi, Z. Zhang*, X. Chen. Fatigue crack growth behavior in CoCrFeMnNi high entropy alloy with harmonic structure topology. International Journal of Fatigue 172 (2023) 107656. J. Wang, Z. Zhang*, H. Dai, H. Fujiwara, X. Chen, K. Ameyama. Enhanced corrosion resistance of CoCrFeMnNi high entropy alloy using heterogeneous structure design. Corrosion Science 209 (2022) 110761. Z. Zhang, H. Lin, Q. Lin, G. Chen, Xu Chen*. Mechanoresponsive luminogen (MRL)-based real-time and visible detection method for biaxial fatigue crack propagation. International Journal of Fatigue 164 (2022) 107161. Z. Zhang*, H. Lin, X. Wei, G. Chen, X. Chen. Real‑time and visible monitoring of structural damage using mechanoresponsive luminogen: recent progress and perspectives. Welding in the World 66 (2022) 1825-1845. Z. Zhang*, X. Zhai, G. Chen, X. Chen, K. Ameyama. Enhanced synergy of strength-ductility and low-cycle fatigue resistance of high-entropy alloy through harmonic structure design. Scripta Materialia 213 (2022) 114591. L. Zhang, Z. Zhang*, H. Lin, G. Chen, X. Chen. Real-time and visible monitoring of stress distribution using organic mechanoresponsive luminogen. Science China-Technological Science 2021, 64: 2586–2594. L. Zhang, Z. Wang, L. Wang, Z. Zhang*, X. Chen, L. Meng. Machine learning-based real-time visible fatigue crack growth detection. Digital Communications and Networks 7 (2021) 551–558. Z. Zhang, A. Li, Y.P. Wang, Q. Lin*, X. Chen. Low-cycle fatigue behavior and life prediction of fine-grained 316LN austenitic stainless steel. Journal of Materials Research, 2020, 35(23-24): 3180-3191. Z. Zhang*, M. Cao, L. Zhang, Z. Qiu*, W. Zhao, G. Chen, X. Chen, B.Z. Tang*. Dynamic visible monitoring of heterogeneous local strain response through an organic mechanoresponsive AIE luminogen. ACS Applied Materials and Interfaces 2020, 12, 22129−22136. B. Li, Y. Zheng, S. Shi, Z. Zhang*, X. Chen. Cyclic deformation behavior and failure mechanism of S32205 duplex stainless steel under torsional fatigue loadings. Materials Science & Engineering A 786 (2020) 139443. R. Zheng*, M. Liu, Z. Zhang*, K. Ameyama, C. Ma. Towards strength-ductility synergy through hierarchical microstructure design in an austenitic stainless steel. Scripta Materiallia 169 (2019) 76-81. 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.

学术兼职

中国材料研究会镁合金分会青年委员会委员；中国机械工程学会材料分会青年工作委员会委员；天津市力学学会复合材料专业委员会委员； Materials期刊-"Metals and Alloys Section" , Section Editor; Materials Science and Engineering A, Journal of Alloys and Compounds, International Journal of Fatiuge等期刊审稿人。