非晶合金、高熵合金及其涂层的制备、性能与应用
非晶合金、高熵合金的高通量成分设计及制备
增材制造专用非平衡合金粉体材料设计及制备
非晶及高熵合金的结构特性及使役性能研究
多功能化非晶及高熵合金涂层形成、结构、性能及应用
一、代表性论著
[1] Y.T. Shi, W.Y. Lu, W.H. Sun, S.D. Zhang, B.J. Yang, J.Q. Wang, Impact of gas pressure on particle feature in Fe-based amorphous alloy powders via gas atomization: Simulation and experiment, J. Mater. Sci. Technol., 105 (2022) 203.
[2] D.B. Wang, J. Wu, Q. Wang, L. Wan, W. Emori, S.D. Zhang, J.Q. Wang, Temperature-dependent corrosion behaviour of the amorphous steel in simulated wet storage environment of spent nuclear fuels, Corros. Sci., 188 (2021) 14.
[3] L.M. Zhang, M.C. Yan, S.D. Zhang, L.Y. Zhu, A.J. Umoh, A.L. Ma, Y.G. Zheng, J.Q. Wang, Significantly enhanced resistance to SRB corrosion via Fe-based amorphous coating designed with high dose corrosion-resistant and antibacterial elements, Corros. Sci., 164 (2020) 9.
[4] J. Wu, J.P. Cui, Q.J. Zheng, S.D. Zhang, W.H. Sun, B.J. Yang, J.Q. Wang, Insight into the corrosion evolution of Fe-based amorphous coatings under wet-dry cyclic conditions, Electrochim. Acta, 319 (2019) 966.
[5] L.M. Zhang, S.D. Zhang, A.L. Ma, H.X. Hu, Y.G. Zheng, B.J. Yang, J.Q. Wang, Thermally induced structure evolution on the corrosion behavior of Al-Ni-Y amorphous alloys, Corros. Sci., 144 (2018) 172.
[6] J. Wu, S.D. Zhang, W.H. Sun, Y. Gao, J.Q. Wang, Enhanced corrosion resistance in Fe-based amorphous coatings through eliminating Cr-depleted zones, Corros. Sci., 136 (2018) 161.
[7] S.D. Zhang, J. Wu, W.B. Qi, J.Q. Wang, Effect of porosity defects on the long-term corrosion behaviour of Fe-based amorphous alloy coated mild steel, Corros. Sci., 110 (2016) 57.
[8] N.C. Wu, L. Zuo, J.Q. Wang, E. Ma, Designing aluminum-rich bulk metallic glasses via electronic-structure-guided microalloying, Acta Mater., 108 (2016) 143.
[9] S.D. Zhang, W.L. Zhang, S.G. Wang, X.J. Gu, J.Q. Wang, Characterisation of three-dimensional porosity in an Fe-based amorphous coating and its correlation with corrosion behaviour, Corros. Sci., 93 (2015) 211.
[10] B.J. Yang, J.H. Yao, J. Zhang, H.W. Yang, J.Q. Wang, E. Ma, Al-rich bulk metallic glasses with ultrahigh specific strength, Scr. Mater., 61 (2009) 423.
二、发明专利
1. 吴念初,何新宝,张锁德,杨柏俊,孙文海,吕威闫,王建强,一种在超音速火焰喷涂技术中优化铁基非晶涂层性能的方法,2021.07.06,ZL201910638191.7
2. 王建强,高明浩,张锁德,杨柏俊,孙文海,吕威闫,一种采用低浓度缓蚀剂提升铝基非晶合金电蚀抗力的方法,2021.02.26,ZL201910292405.X
3. 吕威闫,杨柏俊,高明浩,孙文海,张锁德,王建强,一种低孔隙率和高非晶度的铝基非晶涂层及其制备装置和制备方法,2020.03.10,ZL 201710827164.5
4. 杨柏俊,张洋,吕威闫,王晓明,孙文海,张锁德,王建强,一种提高铝基非晶合金形成能力的熔体净化熔盐和熔体处理方法,2018.09.28,ZL201510394516.3
5. 张锁德,孙文海,杨柏俊,吕威闫,王建强,一种强玻璃形成能力铁基非晶合金及高致密度耐长期腐蚀非晶合金涂层,2018.11.02,ZL201611190659.3
6. 阚东,王建强,杨柏俊,孙文海,常新春,侯万良,一种具有超高强度和可控塑性的铝基复合材料的制备方法,2015.04.01,ZL201210435848.8
7. 王建强,张甲,杨柏俊,姚佳昊,侯万良,常新春,一种超高比强度和良好塑性铝基块体非晶合金及其制备方法,2012.03.21,ZL200910010727.7
8. 董盼,侯万良,常新春,全明秀,王建强,一种测量具有玻璃转变现象材料粘度的简易方法,2011.11.16,ZL200910248666.8
9. 王爱萍,王建强,常新春,侯万良,一种高耐蚀性的镍基完全非晶合金涂层;的制备方法,2008.08.27,中国,ZL200510046340.9
10. 杨红旺,王建强,常新春,侯万良,卢柯,一种高热稳定性铝基非晶合金及其纳米相复合材料,2006.09.13, ZL03133944.1