Steklo i Keramika (Glass and Ceramics). Monthly scientific, technical and industrial journal

 

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Bioactive ceramics based on zirconia, alumina and titania

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Autors: Medkov M. A., Grischenko D. N., Nedozorov P. M., Kuryavy V. G., Rudnev V. S.
  • Continuous numbering: 1077
  • Pages: 38-42
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Heading: Biomaterials

On the basis of oxides of zirconium, titanium and aluminum, a method has been developed for producing porous ceramics biocompatible with living tissues by introducing calcium phosphates into the volume of ceramics. The bioactive coating is formed directly during the manufacturing process of the sample. The resulting two-phase ceramic is characterized by a developed microrelief. Specimens meet the mechanical specifications for bone replacement implants
Dr. chem. Sciences M. A. MEDKOV 1 ( e-mail This email address is being protected from spambots. You need JavaScript enabled to view it. ), Cand. chem. Sci. D. N. GRISHCHENKO 1 ( e-mail This email address is being protected from spambots. You need JavaScript enabled to view it. ), Cand. chem. Sciences P. M. NEDOZOROV 1 , Cand. chem. Sciences V.G. KURYAVY 1 , Dr. Sciences V. S. RUDNEV 1,2 ; 1 FGBUN & # 171; Institute of Chemistry FEB RAS & # 187; (Russia, Vladivostok)
2 Far Eastern Federal University (Russia, Vladivostok)
Kirilova I. A., Sadovoy M. A., Podorozhnaya V. T. et al. Ceramic and bone-ceramic implants: promising directions // Spine Surgery. 2013.? 4.S. 52? 62. 2. Afzal A. Implantable zirconia bioceramics for bone repair and replacement: A chronological review // Materials Express. 2014. V. 4. N 1. P. 1? 12. 3. Stevens M. M. Biomaterials for bone tissue engineering // Materi-als Today. 2008. V. 11. N 5. P. 18? 25. 4. Safronova TV, Putlyaev VI, Shekhirev MA, Kuznetsov AV Composite ceramics containing a bioresorbable phase // Glass and ceramics. 2007.? 3.S. 31? 35. ? Safronova TV, Putlyaev VI, Shekhirev MA, Kuzne- tsov AV Composite ceramic containing a bioresorbable phase // Glass and Ceram. 2007. V. 64. N 3? 4. P. 102? 106.? 5. Rapacz-Kmita A.,? L? Sarczyk A., Paszkiewicz Z. Mechanical properties of HAp? ZrO2 composites // J. of the European Ce-ramic Society. 2006. V. 26. Is. 8.P. 1481? 1488. 6. Lashneva VV, Shevchenko AV, Dudnik EV Bioceramics based on zirconium dioxide // Glass and ceramics. 2009.? 4.S. 25? 28. ? Lashneva by VV, the AV Shevchenko, the EV Dudnik Bioceramic based on Zirconium dioxide // Glass and Ceram. 2009. V. 66. N 3? 4. P. 140? 143.? 7. Fateeva LV, Golovkov Yu. M., Barinov SM, et al. Influence of sodium phosphate on sintering of hydroxyapatite ceramics // Refractories and techn. ceramics. 2001.? 1. C. 6. 8. Miao X., Hu Y., Liu J., Huang X. Hydroxyapatite coating on porous zirconia // Materials Science and Engineering. 2007. V. 27. N 2.P. 257? 261. 9. Medkov MA, Grishchenko DN, Kuryavyi VG, Rudnev VS Bioactive ceramics based on zirconium dioxide // Khimicheskaya tekhnologiya. 2015.? 10, p. 585? 590. 10. Suchanek W., Yoshimura M. Processing and properties of HA-based biomaterials for use as hard tissue replacement implants // J. Mater. Res. Soc. 1998. V. 13. N 1. P. 94? 103. 11. Hansson S., Norton M. The relation between surface roughness and interfacial shear strength for bone-anchored implants. A mathematical model // J. Biomech. 1999. N 32.P. 829? 836. 12. Barinov SM Ceramic and composite materials based on calcium phosphates for medicine // Advances in chemistry. 2010. T. 79.? 1.S. 15? 31.

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Keywords

bioactive ceramics; implants; oxides of zirconium, titanium, aluminum; calcium phosphates

Use the reference below to cite the publication

Medkov M. A., Grischenko D. N., Nedozorov P. M., Kuryavy V. G., Rudnev V. S. Bioactive ceramics based on zirconia, alumina and titania. Steklo i keramika. 2017:90(9):38-42. (in Russ). UDK 754.056:54.053:616.71:666.7
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Editor-in-chief

Lyudmila Vladimirovna Sokolova