Page 353 - НАЦІОНАЛЬНА АКАДЕМІЯ НАУК УКРАЇНИ
P. 353
353
12. Das S.K. Designing aluminium alloys for a recycling friendly world.
Materials Science. Forum 519–521. 2006. P. 1239–1244.
13. Mahfoud M., Emadi D. Aluminum recycling - challenges and
opportunities. Advanced Materials Research. 2009. P. 571–578.
14. S.K. Das, Designing Aluminium Alloys for a Recycling Friendly World,
Mater. Sci. Forum. 519–521 (2006) 1239–1244.
15. Томашов Н. Д., Тюкина М.Н,. Заливалов Ф.П. Толстослойное
анодирование алюминия . – .М.: Машиностроение. 1966 – 216 с
16. Sheasby P.G., Pinner R., Wernick S. The Surface Treatment and
Finishing of Aluminium and its Alloys. ASM International. 2001. P. 1387.
17. Brown T.J., Idoine N.E., Raycraft E.R., Shaw R.A.,. Deady E.A,
Rippingale J., Bide T., Wrighton C.E., Rodley J. World mineral production 2001-
2005. Preliminary statistics 2007. P.90.
18. Biestek T., Weber J. Powłoki konwersyjne. Wydawnictwo Naukowo-
Techniczne. Warszawa 1968.
19. Efekhari A. Nanostructured materials in electrochemistry. WILEY-VCH
Verlag GmbH & Co. KGaA, Weinheim. 2008. p.463.
20. Masuda H., Fukuda. К. Ordered metal nanohole arrays made by a two-
step replication of honeycomb structures of anodic alumina. Science. 1995. V. 268. P.
1466-1468.
21. Masuda H., Satoh M. Fabrication of Gold Nanodot Array Using Anodic
Porous Alumina as an Evaporation Mask. Japanese Journal of Applied Physics. 1996.
V. 35. P. L126-L129.
22. Mei Y.F., Wu X.L., Shao X.F., Huang G.S., Siu G.G. Formation
mechanism of alumina nanotube array. Applied Physics Letters. 2003. V. 309. № 1-2.
P. 109-113.
23. Masuda H., Yamada H., Satoh M. Highly ordered nanochannel-array
architecture in anodic alumina. Applied Physics Letters. 1997. V. 71. № 19. P. 2770-
2774.
