[1]
Nail A. Sabirzyanov, Federal State government-Financed Research Institution Institute of Solid State Chemistry, of the Ural Branch of the Russian Academy of Sciences, Ekaterinburg, Russia.
[2]
S. V. Borisov, Federal State government-Financed Research Institution Institute of Solid State Chemistry, of the Ural Branch of the Russian Academy of Sciences, Ekaterinburg, Russia.
[3]
Ekaterina A. Bogdanova, Federal State government-Financed Research Institution Institute of Solid State Chemistry, of the Ural Branch of the Russian Academy of Sciences, Ekaterinburg, Russia.
[4]
A. G. Shirokova, Federal State government-Financed Research Institution Institute of Solid State Chemistry, of the Ural Branch of the Russian Academy of Sciences, Ekaterinburg, Russia.
[5]
I. G. Grigorov, Federal State government-Financed Research Institution Institute of Solid State Chemistry, of the Ural Branch of the Russian Academy of Sciences, Ekaterinburg, Russia.
[6]
O. P. Shepatkovsky, Federal State government-Financed Research Institution Institute of Solid State Chemistry, of the Ural Branch of the Russian Academy of Sciences, Ekaterinburg, Russia.
[7]
V. L. Kozhevnikov, Federal State government-Financed Research Institution Institute of Solid State Chemistry, of the Ural Branch of the Russian Academy of Sciences, Ekaterinburg, Russia.
One of the ways of controlled synthesis of biocomposites is application of functional coatings with required medical and biological properties on the metal substrate with high strength properties. The authors propose a method for vacuum impregnation of highly porous NiTi, which excludes heat treatment and maintains the phase composition and high biological activity of HAP. The developed method of biocomposite preparation makes it possible to produce coatings containing from 1 to 45 wt-% HAP with controllable formation of the structure and biomedical properties of the sample.
Biocomposites, Titanium Nickelide (NiTi), Hydroxyapatite (HAP), Functional Coatings
[1]
B. V. Trifonov, S. V. Nadezhdin, Yu. R. Kolobov, G. V. Khramov, М. М. Serov, А. Е. Ligachyov, Е. А. Oleinik, I. V. Ovchinnikov: ‘Regeneration of bone tissue during filling of its defects with titanium fiber – osteoplastic material composite’, Kompozity i nanostruktury, 2013, 2, 59–64. [in Russian]
[2]
S. V. Borisov, О. P. Shepatkovsky, V. V. Tarasov, V. L. Kozhevnikov: ‘Method for production of coating on biopin for osteosynthesis’, RF patent 2465018, published 27 October 2012. [in Russian]
[3]
S. М. Barinov, V. S. Komlev: ‘Calcium phosphates based bioceramics’, 205 p.; 2005, Moscow, Nauka. [in Russian]
[4]
М. А. Garafutdinova, М. V. Astakhov, Yu. R. Kolobov et al.: ‘Methods for modification of the surfaces of materials and for formation of bioactive coatings on medical implants’, Materialovedeniye, 2013, 12, 44–52. [in Russian]
[5]
S. V. Belov (ed.): ‘Porous permeable materials’, Reference book, 335 p.; 1987, Moscow, Metallurgiya. [in Russian]
[6]
P. G. Cheremskoi: ‘Methods for examination of porous solid states’ (ed. L.S. Palatnik), 112 p.; 1985, Moscow, Energoatomizdat. [in Russian]
[7]
N. А. Sabirzyanov, Е. А. Bogdanova, Т. G. Khonina: ‘Method for preparation of hydroxyapatite suspensions’, RF patent 2406693, published 20 December 2010. [in Russian]
[8]
S. V. Borisov, Е. А. Bogdanova, I. G. Grigorov, А. N. Ermakov, V. L. Kozhevnikov, S. V. Smirnov, О. P. Shepatkovsky, А. G. Shirokova: ‘Biocompatible porous material and a method for its production’, RF patent application 2013149842 filed 7 November 2013. [in Russian]
[9]
А. G. Veresov, V. I. Purlyaev, Yu. D. Tretyakov: ‘The chemistry of biomaterials based on calcium phosphates’, Ros. khim. zh. (Zh. Ros. khim. ob-va im. D.I. Mendeleyeva), 2004, (XLVIII), 4, 52–64. [in Russian]
[10]
S. P. Yatsenko, N. А. Sabirzyanov: ‘Method for production of hydroxyapatite’, RF patent 2104924, published 20 February 1998. [in Russian]
[11]
Е. А. Bogdanova, N. А. Sabirzyanov, Т. G. Khonina: ‘The examination of the transport properties of different forms of hydroxyapatite’, Vestnik Uralskoi meditsinskoi akademicheskoi nauki, 2009, 2(25), 319–320. [in Russian]
[12]
Е. А. Bogdanova: ‘The physicochemical properties of bioactive composite materials based on calcium phosphates and organic silicon compounds’, PhD thesis, Federal State government-financed research institution Institute of Solid State Chemistry of the Ural Branch of the Russian Academy of Sciences, Ekaterinburg, Russia, 2012, 130 p. [in Russian]
[13]
V. P. Sivokha, L. L. Meisner, B. P. Gritsenko: ‘A material based on titanium nickelide with shape memory effect’, RF patent (11) 2191842 (13) C2, published 27 October 2002. [in Russian]
