代表性论文(+等同贡献,*通讯作者)
1. B. Zhang+*, X. X. Wei+, B. Wu, J. Wang, X. H. Shao, L.X. Yang, S. J. Zheng, Y. T. Zhou, Q. Q. Jin, E. E. Oguzie, X. L. Ma*, Chloride attack on the passive film on duplex alloy, Corrosion Science, 154, 123-128 (2019).
2. J. Liu, L. X, Yang, C. Y. Zhang, B. Zhang*, T. Zhang*, Y. Li, K. M. Wu, F. H. Wang, Role of the LPSO structure in the improvement of corrosion resistance of Mg-Gd-Zn-Zr alloys, Journal of Alloys and Compounds, 782, 648-658 (2019).
3. J. Liu+, L. X. Yang+, C. Y. Zhang, B. Zhang*, T. Zhang*, Y. Li, K. M. Wu, F. H. Wang, Significantly improved corrosion resistance of Mg-15Gd-2Zn-0.39Zr alloys: Effect of heat-treatment, Journal of Materials Science and Technology, 35, 1644-1654 (2019).
4. B. Zhang, X. L. Ma*, A review ─ pitting corrosion initiation investigated by TEM, Journal of Materials Science and Technology, 35, 1455-1465, (2019).
5. B. Zhang+, J. Wang+, B. Wu, X. W. Guo, Y. J. Wang, D. Chen, Y. C. Zhang, K. Du, E. E. Oguzie, X. L. Ma*, Unmasking chloride attack on the passive film of metals, Nature Communications, 9, 2559 (1-9) (2018).
6. B. Zhang+*, X. Y. San+, X. X. Wei, B. Wu, S. J. Zheng, Y. T. Zhou, X. H. Shao, Q. Q. Jin, L.X. Yang, E. E. Oguzie, X. L. Ma*, Quasi-in-situ observing the growth of native oxide film on the FeCr15Ni15 austenitic alloy by TEM, Corrosion Science, 140,1-7 (2018).
7. X.Y. San+, B. Zhang+*, B. Wu, X. X. Wei, E. E. Oguzie, X. L. Ma*, Investigating the effect of Cu-rich phase on the corrosion behavior of Super 304H austenitic stainless steel by TEM, Corrosion Science, 130, 142-152,( 2017).
8. X.Y. San, B. Zhang*, J. Wang, B. Wu, X.L. Ma, In situ tracking the reversible spinel-rocksalt structural transformation between Mn3O4 and MnO, Micron, 92, 13-18 (2017).
9. B. Zhang+*, J. Wang+, B. Wu, E. E. Oguzie, K. Luo, X. L. Ma*, Direct observation of atomic-scale origins of local dissolution in Al-Cu-Mg alloys, Scientific Reports, 6, 39525 (2016).
10. X.Y. San, B. Zhang*, J. Wang, B. Wu, X.L. Ma, Tracking the structural evolution at atomic-scale in spinel Mn3O4 induced by electrochemical cycling, Electrochemistry Communications, 72, 166-170 (2016).
11. Y.T. Zhou, S.J. Zheng, B. Zhang, X.L. Ma,Atomic scale understanding of the interaction between alloying copper and MnS inclusions in stainless steels in NaCl electrolyte,Corrosion Science, 111, 414-421 (2016).
12. J. Wang+, B. Zhang+, Z. B. He, B. Wu, and X. L. Ma*, Atomic-scale mapping of twins and relevant defective structures in Al20Cu2Mn3 decagonal approximant, Philosophical Magazine, 96, 2457–2467 (2016).
13. J. Wang, B. Zhang*, B. Wu, X.L. Ma, Size-dependent role of S phase in pitting initiation of 2024Al alloy, Corrosion Science, 105, 183-189 (2016).
14. B. Zhang+*, J. Wang+, B. Wu, Y.T. Zhou, X.L. Ma, Quasi-in-situ ex-polarized TEM observation on dissolution of MnS inclusions and metastable pitting of austenitic stainless steel, Corrosion Science, 100, 295-305 (2015).
15. J. Wang+, B. Zhang+, Y. T. Zhou, X. L. Ma*, Multiple twins of a decagonal approximant embedded in S-Al2CuMg phase resulting in pitting initiation of a 2024Al alloy, Acta Materialia 82, 22-31 (2015).
16. Y. T. Zhou+, B. Zhang+, S. J. Zheng, J. Wang, X. Y. San & X. L. Ma, Atomic-scale decoration for improving the pitting corrosion resistance of austenitic stainless steels, Scientific Reports 4, 3604.1-8 (2014).
17. Y.T. Zhou, Y.B. Xue, D. Chen, Y.J. Wang, B. Zhang, X.L. Ma, Atomic-scale configurations of synchroshear-induced deformation twins in the ionic MnS crystal, Scientific Reports 4, 5118 (2014).
18. S.J. Zheng, Y.J. Wang, B. Zhang, Y.L. Zhu, C. Liu, P. Hu, X.L. Ma, Identification of MnCr2O4 nano-octahedron in catalyzing pitting corrosion of austenitic stainless steels, Acta Materialia 58, 5070-5085 (2010).
19. B. Zhang, Y. Li, F.H. Wang, Observations of anomalies in the anodic behaviour of microcrystalline aluminium, Corrosion Science 52, 2612-2615 (2010).
20. B. Zhang, Y. Li, F.H. Wang, Electrochemical behaviour of microcrystalline aluminium in neutral fluoride containing solutions, Corrosion Science 51, 268-275 (2009).
21. B. Zhang, Y. Li, F.H. Wang, Electrochemical corrosion behaviour of microcrystalline aluminium in acidic solutions, Corrosion Science 49, 2071-2082 (2007).
专利
1. 周杨韬,张波,马秀良,一种提高奥氏体不锈钢抗点蚀性能的化学处理方法,专利号:201310034082.7,2013,中国专利。已授权(2017.02.21)。
2. 张波,周杨韬,马秀良,一种研究材料腐蚀电化学行为的装置及原位TEM方法,专利号:201310062015.6,2013,中国专利。已授权(2016.02.01)。
会议报告
(1)2012年全国腐蚀电化学及测试方法学术年会,2012.07.13~18,成都,西南石油大学,分会报告题目:不锈钢点蚀形核机制的原位(外环境)TEM研究;
(2)PRIME-222nd ECS Meeting,2012.10.05~12,Honululu, Hawaii,USA.
分会报告题目:In-situ Ex-environmental TEM Investigation on Pitting Initiation of Stainless Steels.
(3)European Corrosion Congress 2013, 2013.09.01~05, Lisboa,Portugal.
分会报告题目:In situ ex-polarized TEM observation on dissolution of MnS inclusions and metastable pitting of authentic stainless steel.
(4)19th International Corrosion Congress, 2014.11.02~06, Jeju, Korea.
分会报告题目:Atomic-scale decoration for improving the pitting corrosion resistance of austenitic stainless steels