相册


基本信息 The basic information
姓名: 张昊

学院: 民航学院


学历: 博士研究生毕业

学位: 哲学博士


职称: 副教授

职务:


学科: 航空宇航科学





工作经历 Work Experience
2020.09~至今： 西北工业大学，民航学院，副教授



教育经历 Education Experience
2015.09~2019.12：美国阿克伦大学，机械工程系，工学博士
2012.09~2015.09：西北工业大学, 材料学院，工程硕士
2008.09~2012.07： 西北工业大学, 材料学院，工学学士





荣誉获奖 Awards Information
美国阿克伦大学工程学院 the Dr. Fred Kat-Chung Choy Memorial Scholarship-Grad Student for 2019-2020.



科学研究 Scientific Research
主要研究方向（不局限于）：


[1] 航空金属材料新型表面强化处理技术


[2] 发动机故障诊断及预测


[3] 塑性变形多尺度计算模拟


[4] 复杂加工及材料性能的机器学习建模



学术成果 Academic Achievements

Refereed Journal Papers
[1] C. Kun, W. Jie, G. Zha, J. Dong, Y. Li, S. Wu, Y. Wang, H. Zhang, and Y. Lin. "Origin and evolution of threading dislocation in CdZnTe (001)/GaAs (001) epilayer grown by close spaced sublimation." Applied Surface Science,144431, Oct. 2019.
[2] W. Zhao, D. Liu, H. Qin, X. Zhang, H. Zhang, R. Zhang, Z. Ren, C. Ma, A. Amanov, and Y.-S. Pyun, “The effect of ultrasonic nanocrystal surface modification on low temperature nitriding of ultra-high strength steel,” Surface and Coatings Technology, vol. 375, pp. 205–214, Oct. 2019.
[3] H. Zhang, Y. Dong, C. Ye, et al., “Microstructure Evolution and Electroplasticity in Ti64 Subjected to Electropulsing-assisted Laser Shock Peening”, Journal of Alloys and Compounds, vol. 802, pp. 573-582, Sep. 2019.
[4] J. Zhao, Z. Ren, H. Zhang, G.-X. Wang, Y. Dong, and C. Ye, “Electroplasticity in AZ31B subjected to short-duration high-frequency pulsed current,” Journal of Applied Physics, vol. 125, no. 18, p. 185104, May 2019.
[5] W. Zhao, D. Liu, X. Zhang, Y. Zhou, R. Zhang, H. Zhang, and C. Ye, “Improving the fretting and corrosion fatigue performance of 300M ultra-high strength steel using the ultrasonic surface rolling process,” International Journal of Fatigue, vol. 121, no. October 2018, pp. 30–38, 2019.
[6] R. Zhang, S. Mankoci, N. Walters, H. Gao, H. Zhang, X. Hou, H. Qin, Z. Ren, X. Zhou, G. L. Doll, A. Martini, N. Sahai, Y. Dong, and C. Ye “Effects of laser shock peening on the corrosion behavior and biocompatibility of a nickel–titanium alloy,” Journal of Biomedical Materials Research Part B Applied Biomaterials, 2018.
[7] H. Zhang, J. Zhao, J. Liu, H. Qin, Z. Ren, G. L. Doll, Y. Dong, and C. Ye, “The effects of electrically-assisted ultrasonic nanocrystal surface modification on 3D-printed Ti-6Al-4V alloy,” Additive Manufacturing, vol. 22, pp. 60–68, 2018.
[8] H. Zhang, Z. Ren, C. Ye, and Y. Dong, “An open-source code to generate carbon nanotube/graphene junctions,” Computational Materials Science, vol. 146, pp. 143–149, 2018.
[9] H. Zhang, R. Chiang, H. Qin, Z. Ren, X. Hou, D. Lin, G. L. Doll, V. K. Vasudevan, Y. Dong, and C. Ye, “The effects of ultrasonic nanocrystal surface modification on the fatigue performance of 3D-printed Ti64,” International Journal of Fatigue, vol. 103, pp. 136–146, 2017.
[10] H. Zhang, H. Qin, Z. Ren, J. Zhao, X. Hou, G. L. Doll, Y. Dong, and C. Ye, “Low-temperature nitriding of nanocrystalline Inconel 718 alloy,” Surface and Coatings Technology, vol. 330, pp. 10–16, 2017.
[11] C. Ma, M. T. Andani, H. Qin, N. S. Moghaddam, H. Ibrahim, A. Jahadakbar, A. Amerinatanzi, Z. Ren, H. Zhang, G. L. Doll, Y. Dong, M. Elahinia, and C. Ye, “Improving surface finish and wear resistance of additive manufactured nickel-titanium by ultrasonic nano-crystal surface modification,” Journal of Materials Processing Technology, vol. 249, pp. 433–440, 2017.
[12] J. Ren, L. Fu, G. Bian, J. Su, H. Zhang, S. Velury, R. Yukawa, L. Zhang, T. Wang, G. Zha, R. Guo, T. Miller, M. Z. Hasan, and T. C. Chiang, “An Effective Approach to Improving Cadmium Telluride (111)A Surface by Molecular-Beam-Epitaxy Growth of Tellurium Monolayer,” ACS Applied Materials & Interfaces, vol. 8, no. 1, pp. 726–735, 2016.
[13] S. Xi, W. Jie, G. Zha, Y. Yuan, T. Wang, W. Zhang, J. Zhu, L. Xu, Y. Xu, J. Su, H. Zhang, Y. Gu, J. Li, J. Ren, and Q. Zhao, “Effects of Ga–Te interface layer on the potential barrier height of CdTe/GaAs heterointerface,” Physical Chemistry Chemical Physics, vol. 18, no. 4, pp. 2639–2645, 2016.
Refereed Conference Proceedings
[1] H. Zhang, et al., “The Effects of Laser-assisted Ultrasonic Nanocrystal Surface Modification on 3D-printed Ti-6Al-4V Alloy”, Manufacturing Science and Engineering Conference, Erie, PA, June, 2019
[2] H. Zhang, et al., “The Effects of Laser Shock Peening on the Fatigue Performance of the 3D-Printed AlSi10Mg Alloy”, Society of Tribologists and Lubrication Engineers, Nashville, TN, May, 2019
[3] H. Zhang, et al., “The Effects of Electrically-assisted Ultrasonic Nanocrystal Surface Modification on 3D-printed Ti-6Al-4V Alloy”, International Mechanical Engineering Congress and Exposition, Pittsburgh, PA, Nov, 2018
[4] H. Zhang, H. Qin, Z. Ren, J. Zhao, X. Hou, G. L. Doll, Y. Dong, and C. Ye, “Low-temperature nitriding of nanocrystalline Inconel 718 alloy”, Manufacturing Science and Engineering Conference, Los Angeles, CA, June, 2017
[5] H. Zhang, R. Chiang, H. Qin, Z. Ren, X. Hou, D. Lin, G. L. Doll, V. K. Vasudevan, Y. Dong, and C. Ye, “The effects of ultrasonic nanocrystal surface modification on the fatigue performance of 3D-printed Ti64 Surface modification”, Materials Science & Technology, Pittsburgh, PA, Oct, 2017