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Year 2010, Volume: 44 Issue: 3, 197 - 204, 25.03.2011

Abstract

References

  • Hisbergues .M, Vendeville S, Vendeville P. Zirconia: Established Facts and Perspectives for a Biomaterial in Dental Implantology. J Biomed Mater Res Part B: Appl Biomater, 2009; 88 (B): 519-529.
  • Piconi C, Maccauro G. Zirconia as a ceramic biomaterial. Dent Mater, 1999; 20: 1-25.
  • Piconi C, Burger W, Richter H G, Cittadini A, Maccauro G, Covacci V, Bruzzese N, Ricci G A, Marmo E. Y-TZP ceramics for artiÞcial joint replacements. Dent Mater, 1998; 19: 1489- 1494.
  • Denry I ,Kelly R. State of the art of zirconia for dental applications. Dent Mater, 2008; 24: 299- 307.
  • Helmer JD, Driskell TD. Research on bioceramics. Symp. On Use of Ceramics as Surgical Implants. South Carolina (USA): Clemson University, 1969.
  • Christel P, Meunier A, Dorlot J-M et al. Biomechanical compatibility and design of ceramic implants for orthopaedic surgery. Bioceramics: material charateristics versus in vivo behavior. Ann NY Acad Sci, 1988; 523: 234-56.
  • Rieth PH, Reed JS, Naumann AW. Fabrication and flexural strength of ultra-fine grained yttria- stabilised zirconia. Bull AmCeram Soc, 1976; 55: 717. 8. Gupta TK, Bechtold JH, Kuznickie RC, Cadoğ LH, Rossing BR. Stabilization of tetragonal phase in polycrystalline zirconia. J Mater Sci, 1978; 13: 1464.
  • Chevalier J. What future for zirconia as a biomaterial? Biomaterials, 2006; 27: 535-43.
  • Green D, Hannink R, Swain M. Transformation toughening of ceramics. Boca Raton, FL: CRC Press, 1988.
  • Burger W, Richter HG, Piconi C, Vatteroni R, Cittadini A, Boccalari M. New Y-TZP powders for medical grade zirconia. J Mater Sci Mater Med, 1997; 8: 113-8.
  • Ruiz L, Readey MJ. Effect of heat-treatment on grain size, phase assemblage, and mechanical properties of 3mol% Y-TZP. J Am Ceram Soc, 1996; 79: 2331-40.
  • Scott HG. Phase relationships in the zirconia– yttria system. J Mater Sci, 1975; 10: 1527-35.
  • Chevalier J, Deville S, Mu¨ nch E, Jullian R, Lair F. Critical effect of cubic phase on aging in 3mol% yttria-stabilized zirconia ceramics for hip replacement prosthesis. Biomaterials, 2004; 25: 5539-45.
  • Subbarao EC. Zirconia-an overview. In: Heuer AH, Hobbs LW, editors. Science and technology of zirconia. Columbus, OH: The American Ceramic Society, 1981; 1-24.
  • Guazzato M, Albakry M, Quach L, Swain MV. Influence of surface and heat treatments on the flexural alumina/zirconia-reinforced dental ceramic. Dent Mater, 2005; 21: 454-63. glass-infiltrated
  • Deville S, Chevalier J, Fantozzi G, Bartolome J, Requena J, Moya J, et al. Low-temperature ageing of zirconia-toughened alumina ceramics and its implication in biomedical implants. J Eur Ceram Soc, 2003; 23: 2975-82.
  • Fantozzi G, Chevalier J, Guilhot B. Processing microstructure and thermomechanical behavior of ceramics. Adv Eng Mater, 2001; 3: 563-9.
  • Tanaka K, Tamura J, Kawanabe K, Nawa M, Oka M, Uchida M, ve ark. Ce-TZP/Al2O3 nanocomposite as a bearing material in total joint replacement. J Biomed Mater Res, 2002; 63: 262-70.
  • Filser FT. Direct ceramic machining of dental restorations. Ph.D. thesis. Zurich: Swiss Federal Institute of Technology Zurich; 2001.
  • Cales B. Colored zirconia ceramics for dental applications. In: LeGeros RZ, Legeros JP, editors. Bioceramics. New York: World Scientific Publishing Co. Pte. Ltd.; 1998.
  • Blue DS, Griggs JA, Woody RD, Miller BH. Effects of bur abrasive particle size and abutment composition on preparation of ceramic implant abutments. J Prosthet Dent, 2003; 90: 247-54.
  • Yin L, Huang H. Ceramic response to high speed grinding. Mach Sci Technol, 2004; 8: 21- 37.
  • Yin L, Jahanmir S, Ives LK. Abrasive machining of porcelain and zirconia with a dental handpiece. 2003; 255: 975-89.
  • Kosmac T, Oblak C, Jevnikar P, Funduk N, Marion L. The effect of surface grinding and sandblasting on flexural strength and reliability of Y-TZP zirconia ceramic. Dent Mater, 1999; 15: 426-33.
  • Guazzato M, Albakry M, Quach L, Swain MV. Influence of surface and heat treatments on the flexural alumina/zirconia-reinforced dental ceramic. Dent Mater, 2005; 21: 454-63. glass-infiltrated
  • Curtis AR, Wright AJ, Fleming GJP. The influence of surface modification techniques on the performance of a Y-TZP dental ceramic. J Dent, 2006; 34: 195-206.

ZİRKONYANIN MİKROYAPILARINA VE ÜRETİM ŞEKİLLERİNE GÖRE SINIFLANDIRILMASI

Year 2010, Volume: 44 Issue: 3, 197 - 204, 25.03.2011

Abstract

Zirkonya, eşsiz faz değişimi özelliğine bağlı olarak kazandığı mekanik özellikleri sayesinde CAD/CAM tekniklerinin de
gelişmesiyle birlikte son senelerde diş hekimliği protetik restorasyonlarında kullanımı oldukça yaygınlaşmıştır. Bu derleme
piyasadaki zirkonya materyallerini özellikleriyle birlikte mikroyapılarına göre sınıflandırmıştır. Zirkoyanın işlenmesi
sırasında kullanılan kazıma yöntemleri ise mikroyapıyı ve mekanik özellikleriyle birlikte uzun dönem başarısını
etkilemektedir.

References

  • Hisbergues .M, Vendeville S, Vendeville P. Zirconia: Established Facts and Perspectives for a Biomaterial in Dental Implantology. J Biomed Mater Res Part B: Appl Biomater, 2009; 88 (B): 519-529.
  • Piconi C, Maccauro G. Zirconia as a ceramic biomaterial. Dent Mater, 1999; 20: 1-25.
  • Piconi C, Burger W, Richter H G, Cittadini A, Maccauro G, Covacci V, Bruzzese N, Ricci G A, Marmo E. Y-TZP ceramics for artiÞcial joint replacements. Dent Mater, 1998; 19: 1489- 1494.
  • Denry I ,Kelly R. State of the art of zirconia for dental applications. Dent Mater, 2008; 24: 299- 307.
  • Helmer JD, Driskell TD. Research on bioceramics. Symp. On Use of Ceramics as Surgical Implants. South Carolina (USA): Clemson University, 1969.
  • Christel P, Meunier A, Dorlot J-M et al. Biomechanical compatibility and design of ceramic implants for orthopaedic surgery. Bioceramics: material charateristics versus in vivo behavior. Ann NY Acad Sci, 1988; 523: 234-56.
  • Rieth PH, Reed JS, Naumann AW. Fabrication and flexural strength of ultra-fine grained yttria- stabilised zirconia. Bull AmCeram Soc, 1976; 55: 717. 8. Gupta TK, Bechtold JH, Kuznickie RC, Cadoğ LH, Rossing BR. Stabilization of tetragonal phase in polycrystalline zirconia. J Mater Sci, 1978; 13: 1464.
  • Chevalier J. What future for zirconia as a biomaterial? Biomaterials, 2006; 27: 535-43.
  • Green D, Hannink R, Swain M. Transformation toughening of ceramics. Boca Raton, FL: CRC Press, 1988.
  • Burger W, Richter HG, Piconi C, Vatteroni R, Cittadini A, Boccalari M. New Y-TZP powders for medical grade zirconia. J Mater Sci Mater Med, 1997; 8: 113-8.
  • Ruiz L, Readey MJ. Effect of heat-treatment on grain size, phase assemblage, and mechanical properties of 3mol% Y-TZP. J Am Ceram Soc, 1996; 79: 2331-40.
  • Scott HG. Phase relationships in the zirconia– yttria system. J Mater Sci, 1975; 10: 1527-35.
  • Chevalier J, Deville S, Mu¨ nch E, Jullian R, Lair F. Critical effect of cubic phase on aging in 3mol% yttria-stabilized zirconia ceramics for hip replacement prosthesis. Biomaterials, 2004; 25: 5539-45.
  • Subbarao EC. Zirconia-an overview. In: Heuer AH, Hobbs LW, editors. Science and technology of zirconia. Columbus, OH: The American Ceramic Society, 1981; 1-24.
  • Guazzato M, Albakry M, Quach L, Swain MV. Influence of surface and heat treatments on the flexural alumina/zirconia-reinforced dental ceramic. Dent Mater, 2005; 21: 454-63. glass-infiltrated
  • Deville S, Chevalier J, Fantozzi G, Bartolome J, Requena J, Moya J, et al. Low-temperature ageing of zirconia-toughened alumina ceramics and its implication in biomedical implants. J Eur Ceram Soc, 2003; 23: 2975-82.
  • Fantozzi G, Chevalier J, Guilhot B. Processing microstructure and thermomechanical behavior of ceramics. Adv Eng Mater, 2001; 3: 563-9.
  • Tanaka K, Tamura J, Kawanabe K, Nawa M, Oka M, Uchida M, ve ark. Ce-TZP/Al2O3 nanocomposite as a bearing material in total joint replacement. J Biomed Mater Res, 2002; 63: 262-70.
  • Filser FT. Direct ceramic machining of dental restorations. Ph.D. thesis. Zurich: Swiss Federal Institute of Technology Zurich; 2001.
  • Cales B. Colored zirconia ceramics for dental applications. In: LeGeros RZ, Legeros JP, editors. Bioceramics. New York: World Scientific Publishing Co. Pte. Ltd.; 1998.
  • Blue DS, Griggs JA, Woody RD, Miller BH. Effects of bur abrasive particle size and abutment composition on preparation of ceramic implant abutments. J Prosthet Dent, 2003; 90: 247-54.
  • Yin L, Huang H. Ceramic response to high speed grinding. Mach Sci Technol, 2004; 8: 21- 37.
  • Yin L, Jahanmir S, Ives LK. Abrasive machining of porcelain and zirconia with a dental handpiece. 2003; 255: 975-89.
  • Kosmac T, Oblak C, Jevnikar P, Funduk N, Marion L. The effect of surface grinding and sandblasting on flexural strength and reliability of Y-TZP zirconia ceramic. Dent Mater, 1999; 15: 426-33.
  • Guazzato M, Albakry M, Quach L, Swain MV. Influence of surface and heat treatments on the flexural alumina/zirconia-reinforced dental ceramic. Dent Mater, 2005; 21: 454-63. glass-infiltrated
  • Curtis AR, Wright AJ, Fleming GJP. The influence of surface modification techniques on the performance of a Y-TZP dental ceramic. J Dent, 2006; 34: 195-206.
There are 26 citations in total.

Details

Primary Language Turkish
Journal Section Review Articles
Authors

Özgür Bultan

Değer Öngül This is me

Pınar Türkoğlu This is me

Publication Date March 25, 2011
Published in Issue Year 2010 Volume: 44 Issue: 3

Cite

APA Bultan, Ö., Öngül, D., & Türkoğlu, P. (2011). ZİRKONYANIN MİKROYAPILARINA VE ÜRETİM ŞEKİLLERİNE GÖRE SINIFLANDIRILMASI. Journal of Istanbul University Faculty of Dentistry, 44(3), 197-204.
AMA Bultan Ö, Öngül D, Türkoğlu P. ZİRKONYANIN MİKROYAPILARINA VE ÜRETİM ŞEKİLLERİNE GÖRE SINIFLANDIRILMASI. J Istanbul Univ Fac Dent. March 2011;44(3):197-204.
Chicago Bultan, Özgür, Değer Öngül, and Pınar Türkoğlu. “ZİRKONYANIN MİKROYAPILARINA VE ÜRETİM ŞEKİLLERİNE GÖRE SINIFLANDIRILMASI”. Journal of Istanbul University Faculty of Dentistry 44, no. 3 (March 2011): 197-204.
EndNote Bultan Ö, Öngül D, Türkoğlu P (March 1, 2011) ZİRKONYANIN MİKROYAPILARINA VE ÜRETİM ŞEKİLLERİNE GÖRE SINIFLANDIRILMASI. Journal of Istanbul University Faculty of Dentistry 44 3 197–204.
IEEE Ö. Bultan, D. Öngül, and P. Türkoğlu, “ZİRKONYANIN MİKROYAPILARINA VE ÜRETİM ŞEKİLLERİNE GÖRE SINIFLANDIRILMASI”, J Istanbul Univ Fac Dent, vol. 44, no. 3, pp. 197–204, 2011.
ISNAD Bultan, Özgür et al. “ZİRKONYANIN MİKROYAPILARINA VE ÜRETİM ŞEKİLLERİNE GÖRE SINIFLANDIRILMASI”. Journal of Istanbul University Faculty of Dentistry 44/3 (March 2011), 197-204.
JAMA Bultan Ö, Öngül D, Türkoğlu P. ZİRKONYANIN MİKROYAPILARINA VE ÜRETİM ŞEKİLLERİNE GÖRE SINIFLANDIRILMASI. J Istanbul Univ Fac Dent. 2011;44:197–204.
MLA Bultan, Özgür et al. “ZİRKONYANIN MİKROYAPILARINA VE ÜRETİM ŞEKİLLERİNE GÖRE SINIFLANDIRILMASI”. Journal of Istanbul University Faculty of Dentistry, vol. 44, no. 3, 2011, pp. 197-04.
Vancouver Bultan Ö, Öngül D, Türkoğlu P. ZİRKONYANIN MİKROYAPILARINA VE ÜRETİM ŞEKİLLERİNE GÖRE SINIFLANDIRILMASI. J Istanbul Univ Fac Dent. 2011;44(3):197-204.