學(xué)歷：博士研究生

部門：沈陽(yáng)先進(jìn)材料研究發(fā)展中心高溫合金研究部

碩士生導(dǎo)師

1994年－1998年，太原科技大學(xué)，材料科學(xué)與工程學(xué)院，工學(xué)學(xué)士

1998年－2001年，太原科技大學(xué)，材料科學(xué)與工程學(xué)院，工學(xué)碩士

2001年－2004年，中科院金屬研究所，高溫合金研究部，工學(xué)博士

2004年－2006年，中科院金屬研究所，高溫合金部，助理研究員

2006年－2009年，中科院金屬研究所，高溫合金部，副研究員

2008年－2010年，The University of Queensland, Australia，訪問(wèn)學(xué)者

2009年 － 至今，中科院金屬研究所，高溫合金部，研究員

Fig. 1 Partial density of states for the (a) NiAl0.625Re0.375 and (b) Ni0.625AlRe0.375 alloys. When Re occupies the Al sites, the d-like bands of Re appears with a double peak shape so as to raises the total energy of the whole structure. When Re occupies the Ni sites, the Re d-like bands appear as a sharp main peak and this peak moves downwards to about -1eV below EF to decrease the formation energy of the whole structure

[1] J.S. Tian, G.M. Han, H. Wei, T. Jin and M. S. Dargusch. Local structure of NiAl compounds investigated by extended X-ray absorption fine structure spectroscopy. Journal of Synchrotron Radiation. Accepted. 2012

[2] J. J. Liang, H. Wei, Y. L. Zhu, T. Jin, X. F. Sun, Z. Q. Hu. Phase stabilities in a NiCrAlYRe coating alloy. Surface & Coatings Technology.

[3] L. Peng, P. Peng, D. D. Wen, Y. G. Liu, H. Wei, X. F. Sun, Z. Q. Hu. Site preference of S-doping and its influence on the properties of a Ni/Ni3Al interface. Modelling and Simulation in Materials Science and Engineering

[4] J.J. Liang, H. Wei, Y.L. Zhu, X.F. Sun, T. Jin, Z.Q. Hu, M.S. Dargusch, X. Yao. Influence of Co addition on constituent phases and performance of a NiCrAlYRe alloy system. Surface & Coatings Technology.

[5] J. J. Liang, H. Wei, Y. L. Zhu, X. F. Sun, Z. Q. Hu, M. S. Dargusch, X. Yao. Phase constituents and thermal expansion behavior of a NiCrAlYRe coating alloy. Journal of Materials Science

[6] J. J. Liang, H. Wei, Y. L. Zhu, X. F. Sun, Z. Q. Hu, M. S. Dargusch X. Yao. Influence of Re on the properties of a NiCoCrAlY coating alloy. Journal of Materials Science & Technology

[7] H. Wei, H. Y. Zhang, X. F. Sun, M. S. Dargusch, X. Yao. Interdiffusion within the β-phase region of the Niu2013Cou2013Cru2013Al quaternary system. Journal of Alloys and Compounds.

[8] H. Wei, J.J. Liang, B.Z. Sun, Q. Zheng, X.F. Sun, P. Peng, M. S. Dargusch, X. Yao. Site preference of Ru in NiAl and valence band structure of NiAl containing Ru: First-principles study and photoelectron spectrum. Philosophical Magazine Letters

[9] H. Wei, J.J. Liang, P. Peng, Q. Zheng, X.F. Sun, B.Z. Sun, M.S. Dargusch, X. Yao. Valence band structure of the NiAlu2013Mo alloy from the photoelectron spectrum. Philosophical Magazine Letters

[10] 韋華, 黃糧, 梁靜靜, 孫曉峰, 管恒榮, 胡壯麒. Re對(duì)NiCrAlY涂層熱腐蝕行為的影響. 中國(guó)腐蝕與防護(hù)學(xué)報(bào).

[11] H. Wei, J.J. Liang, B.Z. Sun, P. Peng, Q. Zheng, X.F. Sun, M.S. Dargusch, X. Yao. Comparison of valence-band structures of NiAl alloy containing Cr and Ti: Photoelectron spectrum and first-principles calculations. Intermetallics.

[12] H. Wei, X. F. Sun. Reply to comments on “Interdiffusion in the β phase region of the Niu2013Alu2013Cr system”. Scripta Materialia.

[13] H. Wei, H. Y. Zhang, G. C. Hou, X. F. Sun, M. S. Dargusch, X. Yao, Z.Q. Hu. On interdiffusion in the multicomponent β-NiAl phase. Journal of Alloys and Compounds

[14] X. Liu, L. Huang, Z. B. Bao, H. Wei, X. F. Sun, H. R. Guan, Z. Q. Hu. Oxidation behavior of graded NiCrAlYRe coatings at 900, 1000 and 1100℃. Oxidation of Metal

[15] H. Wei, J. J. Liang, B. Z. Sun, Q. Zheng, X. F. Sun, P. Peng, X. Yao, M. S. Dargusch. Site preference of Re in NiAl and valence band structure of NiAl containing Re: First-principles study and photoelectron spectrum. Applied Physics Letters

[16] G. C. Hou, H. Wei, N. R. Zhao, X. F. Sun, H. R. Guan, Z. Q. Hu. Interdiffusion in the β phase region of the Niu2013Alu2013Cr system. Scripta Materialia

[17] J. J. Liang, H. Wei, G. C. Hou, Q. Zheng, X. F. Sun, H. R Guan, Z. Q. Hu. Thermal stability of phases in a NiCoCrAlY coating alloy. Journal of Materials Research

[18] H. Wei, G. C. Hou, X. F. Sun, H. R. Guan, Z. Q. Hu. Diffusion mobilities for the B2-b.c.c. phase in the Niu2013Al binary system. Journal of Alloys and Compounds

[19] G. C. Hou, Z. Y. Liu, H. Wei, Q. Zheng, X. F. Sun, H. R Guan, Z. Q. Hu. Oxidation of a Co-base Superalloy. Journal of Materials Science & Technology.

[20] H. Wei, G. C. Hou, Q. Zheng, X. F. Sun, X. Yao, H. R Guan, Z. Q. Hu. Study on diffusion in the multicomponent β-NiAl phase. Journal of Physics: Conference series

[21] 梁靜靜, 韋華, 侯桂臣, 管恒榮, 胡壯麒. 高溫涂層材料物理、力學(xué)性能研究進(jìn)展. 稀有金屬材料與工程

[22] H. Wei, G. C. Hou, X. F. Sun, H. R. Guan, Z. Q. Hu. Oxidation behavior of a cast Ni-base superalloy in air: at 900 and 1000℃. Oxidation of Metals

[23] H. Wei, G. C. Hou, X. F. Sun, Q. Zheng, H. R. Guan, Z. Q. Hu. XPS and PAT study on NiAl in a superalloy by pack cementation. Journal of Materials Science & Technology

[24] H. Wei, X. F. Sun, Q. Zheng, H. R. Guan, Z. Q. Hu, G. C. Hou. Estimation of interdiffusivities of the pseudo NiAl binary phase formed in a Nickel-base superalloy by pack cementation. Journal of Materials Research

[25] H. Wei, X. F. Sun, Q. Zheng, H. R. Guan, Z. Q. Hu. Estimation of interdiffusivity of the NiAl Phase in Niu2013Al binary system. Acta Materialia

[26] H. Wei, X. F. Sun, Q. Zheng, G. C. Hou, H. R. Guan, Z. Q. Hu. An inverse method for determination of the interdiffusivity in aluminide coatings formed on superalloy. Surface & Coatings Technology.

[27] H. Wei, X. F. Sun, Q. Zheng, G. C. Hou, H. R. Guan, Z. Q. Hu. A finite element method for determination of interdiffusivity of NiAl phase formed in a superalloy. Journal of Materials Science & Technology. Vo

[28] H. Wei, X. F. Sun, Q. Zheng, G. C. Hou, H. R. Guan, Z. Q. Hu. Effect of substrate characteristics on interdiffusion coeffcients of Ni and Al atoms in NiAl phase of aluminide coatings. Journal of Materials Science & Technology. Vol

① 在“2007 International Symposium on Nonlinear Dynamics”作題為“Study on diffusion in the multicomponent β-NiAl phase”的大會(huì)口頭報(bào)告。

② 在“中國(guó)腐蝕學(xué)會(huì)高溫專業(yè)委員會(huì)2010年會(huì)”作題為“MCrAlY涂層相演變及其應(yīng)力分布”的大會(huì)邀請(qǐng)報(bào)告。

③ 在“Thermal Barrier Coatings III”作題為“A model for failure mechanism of thermal barrier coatings”的大會(huì)口頭報(bào)告。

④ 在“第八屆中國(guó)腐蝕學(xué)會(huì)高溫專業(yè)委員會(huì)首次會(huì)議”作題為“熱-力耦合作用下熱障涂層失效過(guò)程有限元模擬”的大會(huì)口頭報(bào)告。