Page 355 - НАЦІОНАЛЬНА АКАДЕМІЯ НАУК УКРАЇНИ
P. 355
355
34. Zhao N.-Q., Jiang X.-X., Shi C.-S., Li J., Zhao Z.-G., Du X.-W., Effects
of anodizing conditions on anodic alumina structure. Journal of. Materials Science. 42
.2007. P. 3878–3882.
35. Kwolek P. Hard anodic coatings on aluminum alloys. Advances in
manufacturing science and technology. Vol. 41. no. 3. pp. 35–46, 2017.
36. Baron-Wieche´c A., Burke M. G., Hashimoto T., Liu H., Skeldon P.
Thompson G. E, Habazaki H., Ganem J. J. and Vickridge I. C. Tracer study of pore
initiation in anodic alumina formed in phosphoric acid. Electrochimical Acta.Vol. 113.
pp. 302–312. 2013.
37. Garcia-Vergara S. J., Iglesias-Rubianes L., Blanco-Pinzon C. E.,
Skeldon P., Thompson G. E. and Campestrini P. Mechanical instability and pore
generation in anodic alumina. Proceedings of the Royal Society. Vol. 462. no. 2072.
pp. 2345–2358. 2006.
38. O’Sullivan, J.P. and Wood, G.C. (1970) The Morphology and
Mechanism of Formation of Porous Anodic Films on Aluminium. Proceedings of the
Royal Society of London A, Mathematical and Physical Sciences. 317, 511-543.
39. Masuda Y. K., Osaka H. A., Self-ordering of cell configuration of anodic
porous alumina with large-size pores in phosphoric acid solution. Japanese Journal of
Applied Physics. vol. 37. no. 11A. 1998. P. 1340
40. Moller P., Nielsen L. Advanced Surface Technology: A Holistic View
on the Extensive and Intertwined World of Applied Surface Engineering, Том 2.
NASF. 2012. P. 1238.
41. Garcia S. J. – Vergara, Skeldon P., Thompson G. E., Habazki H.. A flow
modelof porous fnodic film growth on aluminium. Electrochimical Acta. 2006. 52. P.
681 -687.
42. Chen, W.; Wu, J.-S.; Xia, X.-H. Porous Anodic Alumina with
Continuously Manipulated Pore.Cell Size. ACS Nano 2008. 2. 959-965
43. Gabe D.R.. Hard anodizing-what do we mean by hard. Metal Finishing.
100. 2002. 52-58.
