Geodesic
Modeling processes in electrolytic tank under deposition calcium-phosphate surfaces on titanium plate by microarc method
Matematičeskoe modelirovanie, Tome 21 (2009) no. 1, pp. 92-110.

Voir la notice de l'article provenant de la source Math-Net.Ru

In this work the mathematical model is suggested to describe the process in electrolytic bath by mapping of Са-Р surfaces. The diffusion in liquid and solid phases, basic conversion in particles and in a water solution are taken into consideration in the model. The algorithm of computational solution of the problem was elaborated. The influence of model parameters on the processes in electrolytic tank is numerically investigated. The particular cases of model and her potentials for further modification are discussed. 
@article{MM_2009_21_1_a7,
     author = {N. N. Nazarenko and A. G. Knyazeva},
     title = {Modeling processes in electrolytic tank under deposition calcium-phosphate surfaces on titanium plate by microarc method},
     journal = {Matemati\v{c}eskoe modelirovanie},
     pages = {92--110},
     publisher = {mathdoc},
     volume = {21},
     number = {1},
     year = {2009},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/MM_2009_21_1_a7/}
}
TY  - JOUR
AU  - N. N. Nazarenko
AU  - A. G. Knyazeva
TI  - Modeling processes in electrolytic tank under deposition calcium-phosphate surfaces on titanium plate by microarc method
JO  - Matematičeskoe modelirovanie
PY  - 2009
SP  - 92
EP  - 110
VL  - 21
IS  - 1
PB  - mathdoc
UR  - http://geodesic.mathdoc.fr/item/MM_2009_21_1_a7/
LA  - ru
ID  - MM_2009_21_1_a7
ER  - 
%0 Journal Article
%A N. N. Nazarenko
%A A. G. Knyazeva
%T Modeling processes in electrolytic tank under deposition calcium-phosphate surfaces on titanium plate by microarc method
%J Matematičeskoe modelirovanie
%D 2009
%P 92-110
%V 21
%N 1
%I mathdoc
%U http://geodesic.mathdoc.fr/item/MM_2009_21_1_a7/
%G ru
%F MM_2009_21_1_a7
N. N. Nazarenko; A. G. Knyazeva. Modeling processes in electrolytic tank under deposition calcium-phosphate surfaces on titanium plate by microarc method. Matematičeskoe modelirovanie, Tome 21 (2009) no. 1, pp. 92-110. http://geodesic.mathdoc.fr/item/MM_2009_21_1_a7/

[1] Suminov I. V. i dr., Mikrodugovoe oksidirovanie (teoriya, tekhnologiya, oborudovanie), EKOMET, M., 2005, 368 pp.

[2] Shashkina G. A., Ivanov M. B., Legostaeva E. V., Sharkeev Yu. P., Kolobov Yu. R., Khlusov I. A., Pozhenko N. S., Karlov A. V., “Biokeramicheskie pokrytiya s vysokim soderzhaniem kaltsiya dlya meditsiny”, Fizicheskaya mezomekhanika, 7, Spetsvypusk, chast 2 (2004), 123–126

[3] Sharkeev Yu. P., Danilov V. I., Legostaeva E. V., Eroshenko A. Yu., Bratchikov A. D., “Biokompozitsionnyi material na osnove nanostrukturnogo titana i kaltsii-fosfatnykh pokrytii: struktura, fiziko-mekhanicheskie i biologicheskie svoistva”, Nano 2007, Sbornik tezisov (13–16 marta, 2007, Novosibirsk)

[4] Nazarenko N. N., Knyazeva A. G., “Modelirovanie protsessov v elektroliticheskoi vanne pri nanesenii kaltsii-fosfatnykh pokrytii”, Fizicheskaya mezomekhanika, 8, Spetsvypusk (2005), 61–64

[5] Frank-Kamenetskii D. A., Diffuziya i teploperedacha v khimicheskoi kinetike, Nauka, M., 1987, 502 pp.

[6] Levich V. G., Fiziko-khimicheskaya gidrodinamika, Izdatelstvo akademii nauk SSSR, M., 1952, 534 pp. | MR

[7] Kolchuzhkin A. M., Timokhin A. M., Ababii V. D., Lebedev V. A., “Integratsionyi metod resheniya integro-differentsialnykh uravnenii Nernsta–Planka–Puassona”, Elektrokhimiya, 35:9 (1999), 1141–1145

[8] Eiring G., Lin S. G., Liin S. M., Osnovy khimicheskoi kinetiki, Mir, M., 1983, 528 pp.

[9] Emanuel N. M., Knorre D. G., Kurs khimicheskoi kinetiki, Vysshaya shkola, M., 1974, 400 pp.

[10] Daniels F., Olberti R., Fizicheskaya khimiya, Mir, M., 1978, 645 pp.

[11] O. D. Kurilenko (red.), Kratkii spravochnik po khimii, Mir, M., 1982, 435 pp.

[12] Nigmatulin R. I., Dinamika mnogofaznykh sred, Ch. 1, 2, Nauka, M., 1987

[13] Ostrovskii G. M., Prikladnaya mekhanika neodnorodnykh sred, Nauka, SPb., 2000, 874 pp.

[14] A. K. Kutepov i dr., Khimicheskaya gidrodinamika, Byuro Kvantum, M., 1996, 336 pp.

[15] Krasnov K. S., Vorobev N. K. i dr., Fizicheskaya khimiya, t. 2, Vysshaya shkola, M., 1995, 319 pp.

[16] Nazarenko N. N., Knyazeva A. G., Khlusov I. A., Karlov A. V., “Chislennoe issledovanie diffuzionnykh protsessov v implantatakh s mnogosloinymi pokrytiyami pri ikh vzaimodeistvii s modelnoi biologicheskoi zhidkostyu”, Tomsk: Fiz. mezomekh., 7:2 (2004), 135–138