Moscow, Moscow, Russian Federation
The composite materials (CM) on the base of carbon fibers (CF) and calcium hydroxyapatite Ca10(PO4)6(OH)2 (HA) in the course of coprecepitation in water solutions of system Ca(OH)2-H3PO4-УВ-H2O synthesized. The influence of CM HA/CF composition and CF first treatment (functionalization) on HA nanocrystels (NCHA) dimensions, morphology and biocompatibility (solubility) was determined.
calcium hydroxyapatite, carbon fibers, composite materials, synthesis, properties
1. Simamura S. Carbon Fibers. M.: Mir, 1987, pp. 304. (In Jap.)
2. Fitcer E. Uglerodnye volokna i uglekompozity. Per. angl. M.: Mir, 1988, 336 s. [Fitzer A. Carbon Fibers and carbon composites. Transl. from Eng. M.: Mir, 1988, 336 p. (In Russ.)]
3. Anoshkin A.N., Zmeev Yu.A., Ivanov D.S. i dr. Prognozirovanie prochnosti uglerod-uglerodnogo endoproteza golovki bedrennoy kosti pri staticheskih isputaniyah. Rossiyskiy zhurnal biomehanimi, 2004, t. 8, № 2, s. 40-49. [Anoshkin, A.N., Zmeev, J.A., Ivanov, D.S. et al. Prediction of carbon-carbon endoprothesis strength for head of hip bone in statistical investigation. Russian Journal of Biomechanics, 2004, vol. 8, no. 2, pp. 40-49. (In Russ.)]
4. Kadanceva A.I., Tverskoy V.A. Uglerodnye volokna. M.: Izd-vo MGFTHT, 2008, 55 s. [Kadontseva A.I., Tverskoi V.A. Carbon Fibers. M.: Ed. MGFTCHT, 2008, 55 p. (In Russ.)]
5. Zolkin P.I., Kavalenskiy G.A., Sereda A.P. i dr. Uglerodnyy endoprotez tazobedrennogo sustava. Zhurnal klinicheskoy i eksperimental'noy ortopedii, 2015, № 2, c. 32-35. [Zolkin P.I., Kovalenskiy G.A., Sereda A.P. et al. Carbon endoprothesis of hip joint. Journal of clinical and experimental of orthopedic, 2015, no. 2, pp. 32-35 (In Russ.)]
6. Ma Y., Wang J., Xiaoping Cai X. The effect of electrolyte on surface composite and microstructure of carbon fiber by electrochemical treatment. J. Phy. Ast., 2012, vol. 1, no. 1, pp. 60-65.
7. Zaharov N.A., Kalinnikov V.T. Nanorazmernye kompozicionnye materialy dlya implantatov na osnove gidroksiapatita kal'ciya. Fundamental'nye nauki - medicine. Biofizicheskie medicinskie tehnologii. M.: MAKS Press, 2015, t. 2, s. 145-169. [Zakharov N.A., Kalinnikov V.T. Nanosized composite materials for implantats on the base of calcium hydoxyapatite. Fundamental sciences for medecine. Biophysical technology for medicine. M.: MAKS Press, 2015, vol. 2, pp. 145-169 (In Russ.)]
8. Zaharov N.A., Tkachev A.G., Demina L.I. i dr. Vliyanie oksida grafena na biomineralizaciyu i rastvorimost' gidroksiapatita kal'ciya. Fizikohimiya poverhnosti i zaschita materialov, 2016, t. 52, № 2, s. 1-12. [Zakharov N.A., Tkachev A.G., Demina L.I. et al. Influence of grapheme oxide on biomineralization and solubility of calcium hydroxyapatete. Physicochemistry of the surface and protection of materials, 2016, vol. 52, no. 2, pp. 1-12 (In Russ.)]