教学科研成果
发明专利:
(1)一种采用蚀刻技术制备热障涂层方法,ZL202010267075.1
(2)一种具有抗熔融CMAS侵蚀的热障涂层及制备方法,ZL202111323518.5
(3)高温合金表面致密型富Re阻扩散涂层的制备方法,ZL202111093030.8
(4)热障涂层的制备方法、热障涂层和涡轮转子叶片,ZL202111617924.2
代表性论文:
[1] W. Wang, J. Wen, J. He*, et al., Investigation of CMAS corrosion resistance for gradient Y2O3 stabilized ZrO2, Surface & Coatings Technology, 487(2024): 130944.
[2] W.Q. Peng, J. Wen, L.L. Wei, J. He*, et al., Effects of Gd3+ doping on phase compositions, mechanical properties and thermophysical properties of (Yb1-xGdx)4Hf3O12 ceramics, Ceramics International, 50(2024): 31745-31751.
[3] J.M. Li, S. Li, J. Shi, J. He*, W.T. He*, et al., The failure behavior analysis based on finite element simulation of PS-PVD (Gd0.9Yb0.1)2Zr2O7/YSZ coatings during burner rig tests, Materials & Design, 231(2023): 112013.
[4] B.Y. Zhou, Q.J. Zhou, J. He*, et al., A comprehensive study on the oxidation behavior and failure mechanism of (γ' + β) two-phase Ni-34Al-0.1Dy coating treated by laser shock processing, Journal of Materials Science & Technology, 162(2023): 131-144.
[5] J.C. Li, Y.T. Wu, L. Liu, R.L. Peng, J.H. Xu, J. He*, et al., The inhibiting effect of Re-rich layer on the interdiffusion between NiAl and Ni3Al-based superalloy and its degradation, Journal of Alloys and Compounds, 957(2023): 170404.
[6] L. Liu, J. He*, Y.T. Wu, et al., Investigation on the tensile properties of PtAl and PtReAl coated Ni3Al-based single crystal superalloy, Materials Science and Engineering A, 867(2023): 144750.
[7] W.B. Chen, Q.Z. Han, J. He*, et al., Effect of HfO2 framework on steam oxidation behavior of HfO2 doped Si coating at high temperatures, Ceramics International, 48(2022): 20201-20210.
[8] Q. Guo, W.T. He*, J. He*, et al., Characterization of Yb2SiO5-based environmental barrier coating prepared by plasma spray-physical vapor deposition, Ceramics International, 48(2022): 19990-19999.
[9] J. Jing, J.M. Li, Z. He, J. He*, et al., High-temperature CMAS resistance performance of Ti2AlC oxide scales, Corrosion Science, 174(2020): 108832.
[10] X.Z Cao, J. He*, H. Chen, et al., The formation mechanisms of HfO2 located in different positions of oxide scales on Ni-Al alloys, Corrosion Science, 167(2020): 108481.