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张东哲

个人基本情况:
张东哲,博士,副教授机械工程学院机械设计及其自动化系                                           

联系方式:4fc00e9f0bec419788585d1965967779.png

通信地址:天津市河西区大沽南路1038号天津科技大学机械工程学院8-204     

邮政编码:300222

Email:zhangdz@tust.edu.cn

教育经历:
1. 2018/08–2022/08,德克萨斯理工大学,工业工程,工学博士学位;
2. 2013/09–2016/07,西安交通大学,机械工程,工学硕士学位;
3. 2009/09–2013/07,西安理工大学,机械设计制造及其自动化专业,工学学士学位。

工作经历:

1. 2022/11--至今 天津科技大学机械工程学院 副教授

2. 2017/08--2018/06 上海思源电气股份有限公司 工程师

3. 2016/08--2017/07 西电变压器有限责任公司 工程师

主要研究方向:

1. 增材制造金属及金属基复合材料;

2. 混合制造过程监测;

3. 记忆合金超弹性;

4. 有限元模拟。

学术服务:

1. 担任Materials Science and Engineering: A, Journal of Manufacturing Processes, Journal of Composite Materials, Manufacturing Science and Engineering Conference (MSEC),以及 North American Manufacturing Research Conference (NAMRC)等期刊及会议审稿专家。

参与的主要科研与工程项目:

1. “Microfeature Fabrication in Brittle Materials Using Rotary Ultrasonic Micro-Machining”, National Science Foundation, 34万美元,2021/11-2022/07,参与。

2. “Collaborative research: Creating an Upper Division Additive Manufacturing Course and Laboratory for Enhancing Undergraduate Research and Innovation”, National Science Foundation, 15万美元,2018/08-2022/07,参与。

3. “Fundamental Research on Hole Drilling and Surface Grinding of Carbon Fiber Reinforced Plastic Composites with Rotary Ultrasonic Machining”, National Science Foundation, 32万美元,2018/08-2020/08,结题,参与。

4. 针对变压器的参数化模型开发快速生成机械结构三维模型,2016/10-2017/05,负责人。

5.世界首台 160 kV 及首台500 kV 机械式直流断路器开发,该断路器已被用于世界首个柔性直流电网,2017/08-2018/06,子项目负责人

完成的主要学术论文:

  1. Zhang, D., Hu, Z., Li, Y., & Cong, W. (2022). Excellent damping properties and their correlations with the microstructures in the NiTi alloys fabricated by laser-directed energy deposition. Journal of Manufacturing Processes, 84, 965-976.

  2. Zhang, D., Li, Y., & Cong, W. (2021). In-situ synthesis of high-quality pseudoelastic NiTi alloys with intrinsic Ni4Ti3 phase precipitation using laser DED. Journal of Manufacturing Processes, 74, 308-318.

  3. Zhang, D., Li, Y., & Cong, W. (2021). Multi-scale pseudoelasticity of NiTi alloys fabricated by laser additive manufacturing. Materials Science and Engineering: A, 821, 141600.

  4. Zhang, D., Li, Y., Wang, H., & Cong, W. (2021). An investigation on Ni4Ti3 phase precipitation and its effects in laser directed energy deposition of TiC–NiTi composites. Materials Science and Engineering: A, 809, 140976.

  5. Zhang, D., Li, Y., Wang, H., & Cong, W. (2020). Ultrasonic vibration-assisted laser directed energy deposition in-situ synthesis of NiTi alloys: Effects on microstructure and mechanical properties. Journal of Manufacturing Processes, 60, 328-339.

  6. Zhang, D., Wang, H., Burks, A. R., & Cong, W. (2020). Delamination in rotary ultrasonic machining of CFRP composites: finite element analysis and experimental implementation. The International Journal of Advanced Manufacturing Technology, 107(9), 3847-3858.

  7. Zhang, D., Wang, H., & Cong, W. (2020). Quantifying hole quality through geometry accuracy and surface qualities in rotary ultrasonic machining of carbon fiber–reinforced plastic composites. Advances in Mechanical Engineering, 12(8), 1687814020945473.

  8. Li, Y., Hu, Y., Zhang, D., & Cong, W. (2023). Laser remelting of CoCrFeNiTi high entropy alloy coatings fabricated by directed energy deposition: Effects of remelting laser power. Optics & Laser Technology, 158, 108871.

  9. Li, Y., Zhang, D., Wang, H., Ye, G., He, R., & Cong, W. (2022). Theoretical and experimental investigations on rotary ultrasonic surface micro-machining of brittle materials. Ultrasonics Sonochemistry, 89, 106162.

  10. Li, Y., Zhang, D., Zhao, B., & Cong, W. (2022). In situ synthesis and characterization of ceramic reinforced Inconel 718 coatings using B4C-Inconel 718 powders by laser-directed energy deposition. The International Journal of Advanced Manufacturing Technology, 120(7), 5193-5203.

  11. Li, Y., Zhang, D., & Cong, W. (2022). Feasibility study of adding buffer layers for the laser deposition of high-ceramic content (TiB+ TiC)–Ti coatings using B4C/Ti powders. Ceramics International.

  12. Li, Y., Zhang, D., Ye, Z., Ye, G., He, R., Wang, H., & Cong, W. (2021). The reinforcement mechanisms of graphene oxide in laser-directed energy deposition fabricated metal and ceramic matrix composites: a comparison study. The International Journal of Advanced Manufacturing Technology, 1-14.

  13. Li, Y., Zhang, D., Wang, H., & Cong, W. (2021). Fabrication of a TiC-Ti Matrix Composite Coating Using Ultrasonic Vibration-Assisted Laser Directed Energy Deposition: The Effects of Ultrasonic Vibration and TiC Content. Metals, 11(5), 693.

  14. Wang, H., Zhang, D., Li, Y., & Cong, W. (2020). The effects of elliptical ultrasonic vibration in surface machining of CFRP composites using rotary ultrasonic machining. The International Journal of Advanced Manufacturing Technology, 106(11), 5527-5538.

  15. Zhang, D., Li, Y., Wang, H., & Cong, W. (2020). Laser Engineered Net Shaping In-Situ Synthesis of NiTi Alloy: Effects of Processing Parameters. In ASME 2020 15th International Manufacturing Science and Engineering Conference. Virtual, Online.

  16. Zhang, D., Wang, H., Hu, Y., Chen, X., Cong, W., & Burks, A. R. (2019). Rotary Ultrasonic Machining of CFRP Composites: Effects of Carbon Fiber Reinforcement Structure. In ASME 2019 14th International Manufacturing Science and Engineering Conference. Erie, Pennsylvania, USA.

  17. Li, Y., Zhang, D., & Cong, W. (2021). Ultrasonic Vibration-Assisted Laser Directed Energy Deposition of B4C-Ti Composite: Effect of Laser Power and Ultrasonic Vibration. In ASME 2021 16th International Manufacturing Science and Engineering Conference. Virtual, Online.

  18. Wang, H., Zhang, D., Li, Y., Cong, W., & Burks, A. R. (2020). Delamination in surface machining of CFRP composites using rotary ultrasonic machining with horizontal ultrasonic vibration. In ASME 2020 15th International Manufacturing Science and Engineering Conference. Virtual, Online.

  19. Li, Y., Zhang, D., Wang, H., Hu, Y., & Cong, W. (2020). Laser Engineered Net Shaping of Graphene Oxide Reinforced Titanium: Effects of Reinforcement and Laser Power. In ASME 2020 15th International Manufacturing Science and Engineering Conference. Virtual, Online.

  20. Chen, X., Wang, H., Hu, Y., Zhang, D., Cong, W., & Burks, A. R. (2019). Rotary ultrasonic machining of CFRP composites: effects of machining variables on workpiece delamination. In ASME 2019 14th International Manufacturing Science and Engineering Conference. Erie, Pennsylvania, USA.

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