|
2007 Journal Article Electrochemical potential noise of AISI type 321 stainless steel under stress in acid sulphate solutionsShi, Z.M., Song, G.L., Lin, H.C. and Cao, C.N. (2007). Electrochemical potential noise of AISI type 321 stainless steel under stress in acid sulphate solutions. Corrosion Engineering Science And Technology, 42 (1), 36-41. doi: 10.1179/174327807X181218 |
|
2006 Conference Publication Electrochemical evaluation of the corrosion performance of anodized magnesium alloysSong, G., Shi, Z., Hinton, B., McAdam, G., Talevski, J. and Gerrard, D. (2006). Electrochemical evaluation of the corrosion performance of anodized magnesium alloys. 14th Asian-Pacific Corrosion Control Conference, Shanghai, Peoples Republic of China, 21-24 October, 2006. |
|
2006 Journal Article Influence of anodising current on the corrosion resistance of anodised AZ91D magnesium alloyShi, ZM, Song, GL and Atrens, A (2006). Influence of anodising current on the corrosion resistance of anodised AZ91D magnesium alloy. Corrosion Science, 48 (8), 1939-1959. doi: 10.1016/j.corsci.2005.08.004 |
|
2006 Journal Article Biocorrosion behaviour of magnesium alloys under pseudo-physiological conditionsWang, H., Zhang, M. X., Shi, Z. M. and Yang, K. (2006). Biocorrosion behaviour of magnesium alloys under pseudo-physiological conditions. Tissue Engineering, 12 (4), 1067-1067. |
|
2006 Journal Article The corrosion performance of anodised magnesium alloysShi, ZM, Song, GL and Atrens, A (2006). The corrosion performance of anodised magnesium alloys. Corrosion Science, 48 (11), 3531-3546. doi: 10.1016/j.corsci.2006.02.008 |
|
2006 Journal Article Corrosion resistance of anodised single-phase Mg alloysShi, Zhiming, Song, Guangling and Atrens, Andrej (2006). Corrosion resistance of anodised single-phase Mg alloys. Surface & Coatings Technology, 201 (1-2), 492-503. doi: 10.1016/j.surfcoat.2005.11.081 |
|
2005 Other Outputs The corrosion performance of anodised magnesium alloysShi, Zhiming (2005). The corrosion performance of anodised magnesium alloys. PhD Thesis, School of Engineering, The University of Queensland. doi: 10.14264/269529 |
|
2005 Journal Article Influence of the beta phase on the corrosion performance of anodised coatings on magnesium-aluminium alloysShi, Z. M., Song, G. L. and Atrens, A. (2005). Influence of the beta phase on the corrosion performance of anodised coatings on magnesium-aluminium alloys. Corrosion Science, 47 (11), 2760-2777. doi: 10.1016/j.corsci.2004.11.004 |
|
2003 Conference Publication The influence of anodising parameters on the corrosionperformance of anodised coatings on magnesium alloy AZ91DShi, Z., Song, G. and Atrens, A. (2003). The influence of anodising parameters on the corrosionperformance of anodised coatings on magnesium alloy AZ91D. 13th Asian-Pacific Corrosion Control Conference Application, Osaka, Japan, 16-21 November, 2003. Tokyo, Japan: Japan Society of Corrosion Engineering. |
|
2003 Conference Publication Effects of zinc on the corrosion resistance of anodised coating on Mg-Zn alloysShi, Z., Song, G. and Atrens, A. (2003). Effects of zinc on the corrosion resistance of anodised coating on Mg-Zn alloys. 1st International Light Metals Technology 3, Brisbane, Qld, Australia, 18-20 September, 2003. Australia: CRC for Cast Metals Manufacturing. |
|
2003 Conference Publication The influence of anodising parameters on the corrosion performance of anodised coatings on magnesium alloy AZ91DShi, Z. M., Song, G. L. and Atrens, A. (2003). The influence of anodising parameters on the corrosion performance of anodised coatings on magnesium alloy AZ91D. 13th Asia-Pacific Corrosion Control Conference (APCCC), Osaka, Japan, 16-21 November 2003. not available: not available. |
|
2003 Conference Publication Features of Electrochemical Potential Noise of 321 Stainless Steel during SSRTShi, Z. M., Ling, H. C., Cao, C. N., Song, G. L. and Lu, M. (2003). Features of Electrochemical Potential Noise of 321 Stainless Steel during SSRT. 13th Asia-Pacific Corrosion Control Conference (APCCC), Osaka, Japan, 16-21 November 2003. Osaka, Japan: Japan Society of Corrosion Engineering. |
