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September 2015, № 9 (184)



Filyak M., Kanygina O. GROWTH KINETICS OF THE FILM OF ANODIC ALUMINA IN SODIUM HYDROXIDE ELECTROLYTERecently, porous anodic alumina is widely used as a template for nano-structured material production. Films from alkaline electrolytes are not being studied widely. Meanwhile, alkaline electrolytes are certainly of scientific and practical interest. Anodization of aluminum was performed in a double-electrode electrochemical cell in electrolytes on the basis of sodium hydroxide in the potentiostatic mode and at the simultaneous chronoamperometric control. Experimentally the thickness of anodic aluminum oxide was determined by the gravimetric method. The theoretical computation of thickness of oxide was carried out on the basis of the Faraday's law by the method of chronoamperogram numerical integration. The value of the anodization constant has been calculated to the known thickness of anodic alumina. By using the calculated anodization constant has been stated the theoretical dependency of anodic oxide thickness vs time. In the result of studies has been established the following: for electrolyte concentration 0.1 M and voltage 30 V the anodization constant is (3,67 ± 0,2) • 10–7 sm2/mAHmin and does not depend on anodization time; the value of anodization constant for alkaline electrolytes is less than for acidic type; the anodization constant value allows you to control of anodic film thickness and production of films of certain thickness.Key words: anodic alumina, sodium hydroxide, kinetic curve of anodization; anodization constant.

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References:

1. Poinern, G. Progress in Nano-Engineered Anodic Aluminum Oxide Membrane Development / G. Poinern, N. Ali, D. Fawcett // Materials. — 2011. — V. 4. — P.487 — 526.

2. Socol, V.A. Electrochemical technologi for micro — and nanoelectron devices. / V.A. Socol // REPORTS BSUIR. — 2004. — v. 3. — Р. 18 — 26.

3. Jessensky O., Muller F., Gosele U. Self-organized formation of hexagonal pore arrays in anodic alumina // Applied Physics Letters. — 1998. — V. 72, № 10. — P. 1173 — 1175.

4. Li A. P., Muller F., Birner A., Nielsch K., Gosele U. Hexagonal pore arrays with a 50–420 nm interpore distance formed by self-organization in anodic alumina // Journal of Applied Physics. — 1998. — № 84. — P. 6023 — 6026.

5. Goroh, G.G. Dielectric films anodic alumina with lower dielectric constant / G.G. Goroh, R.E. Feyzullayev, Y.A. Koshin // "Actual Problems of Solid-State Electronics and Microelectronics": 7 International Conference; Taganrog 2000. — P. 252 — 255.

6. Liu, Y. Cellular Porous Anodic Alumina Grown in Neutral Organic Electrolyte. / Y. Liu, R. S. Alwitt, K. Shimizu // Journal of The Electrochemical Society. — 2000. — V. 147, № 4. — Р.1382 — 1387.

7. Araoyinbo, A.O. Novel Process to Produce Nano Porous Aluminum Oxide Using Alkaline Sodium Phosphate Electrolyte / A.O. Araoyinbo, M.N. Ahmad Fauzi, S. Sreekantan, A. Aziz // Azian Journal of Materials Science. –2010. — № 2. — P. 63 — 68.

8. Moon, Sung-Mo The formation and dissolution of anodic oxide films on pure aluminum in alkaline solution / Sung-Mo Moon, Su-Il Pyun // Electrochimica Acta/ — 1999. — № 44. — P. 2445 — 2454.

9. Vikharev, A. Investigation of anodic aluminum oxide obtained in the alkaline electrolyte. / A. Vikharev, A. Vikharev, E.A. Vaguina, L.Yu.Makarenko // Izvestiya VUZ. Chemistry and chemical technology. — 2004. –v.47, i. 7. — Р. 75 — 78.

10. Sulka, G. D. Highly Ordered Anodic Porous Alumina Formation by Self-Organized Anodizing / G. D. Sulka // Nanostructured Materials in Electrochemistry/ Edited by Ali Eftekhari. — Weinheim. : WILEY -VCH, 2008. — P.1 — 116.

11. Filyak, M. M. The features of formation of porous anodic aluminum oxide in alkaline electrolyte/ M. M. Filyak, O. N. Kanygina // Vestnik of OSU. — 2013. — № 1. — Р. 154 — 159.

12. GOST 9.031-74. Unified system of corrosion and ageing protection/ Anode-oxide coatings for semifinished products made of aluminium and its alloys. General requirements and methods of control. — Intr. 1975 — 07 — 01. — M. : Publisher standards, 1989. — 14 p.

13. GOST 9.302-88. Unified system of corrosion and ageing protection. Metal and non-metal inorganic coatings. Methods of control. — Intr. 1990 — 01 — 01. — М. : Publisher standards, 2001. — 41 p.

14. Tomashov, N. D. Thick layer anodizing of aluminum / N. D. Tomashov, M. N. Tjukina, F. P. Zalivalov. — M. : Mashinostroenie, 1966. — 216 р.

15. Filyak, M. Regularities of growth of anodic alumina in alkaline electrolytes / M. Filyak, O. Kanygina // Basic Problems of Material Science (BPMS). — 2013. — v. 10, № 2. — Р.209 — 213.


About this article

Authors: Filyak M.M., Kanygina O.N.

Year: 2015


Editor-in-chief
Sergey Aleksandrovich
MIROSHNIKOV

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