MONOLİTİK ZİRKONYA SERAMİK SİSTEMLERİNİN ÜRETİM TİPLERİ İLE AŞINMA, OPTİK VE ESTETİK ÖZELLİKLERİ

Rukiye Durkan; Gdnca Deste; Hatice Şimşek

doi:10.17567/ataunidfd.419064

Derleme

MONOLİTİK ZİRKONYA SERAMİK SİSTEMLERİNİN ÜRETİM TİPLERİ İLE AŞINMA, OPTİK VE ESTETİK ÖZELLİKLERİ

Yıl 2018, Cilt: 28 Sayı: 2, 263 - 270, 22.04.2018

Rukiye Durkan Gdnca Deste Hatice Şimşek

https://doi.org/10.17567/ataunidfd.419064

Cited By: 1

Öz

Monolitik
zirkonya seramik restorasyonlar, mükemmel mekanik özellikleri ve tek parça
olarak yapılması ile ve- neer seramik ayrılmalarının olmadığı ve bilgisayar des-
tekli tasarım ve bilgisayar destekli üretim (BDT/BDÜ) teknolojileri
kullanılarak üretilen sistemlerdir. Bu sis- temler aşınmaya karşı direnci ve
estetik özellikleri ile son yıllarda birçok üretim tipi ile daha geniş kullanım
alanı bulmaktadır.

Restorasyonların uzun yıllar ağızda kalabilmesi için me- kanik
dayanıklılığı oldukça önemlidir. Monolitik zirkon- ya restorasyonların yüksek
aşınma dayanımı olduğu bilinmesine rağmen konvansiyonel zirkonyaya karşı üs- tünlükleri
ve karşıt minede oluşturdukları etkiler kanıt- lanamamıştır.

Opak-beyazımsı görüntüsü olan konvansiyonel zirkon- ya
seramik sistemlere oranla yüksek translusensi gös- teren monolitik zirkonyada
doğal görünüm oluşturmak için sinterizasyon öncesi renklendirme yapılabilmek- tedir.
Ayrıca yüzey parlaklığı ve estetik için parlatma ve glazür işlemleri de
yapılabilmektedir. Estetik ve optik özelliklerin artırılmasında zirkonya
seramik materyal tipi, translusensi özelliği ve yüzey işlemleri oldukça önemli
parametrelerdir. Doğal dişler translusent oldu- ğu için zirkonya
restorasyonlarda translusensi aranan önemli bir özelliktir.

Anahtar Kelimeler: Monolitik
zirkonya, estetik, aşınma direnci

PRODUCTION TYPES OF MONOLITHIC ZIRCONIA
CERAMIC SYSTEMS WITH WEAR RESISTANCE, OPTICAL AND AESTETHIC PROPERTIES

ABSTRACT

Monolithic zirconia ceramic restorations are excellent
mechanical properties in which it is not encountered veneers chipping since it
is produced in one piece by using computer-aided design and computer-aided manufacturing
technology (CAD /CAM). These
systems with wear resistance and aesthetic properties are in widely use in
recent years with many generic forms.

Mechanical strength of restoration is very important to
remain in the mouth for many years. Monolithic zirconia restorations could not
be proved superiority against conventional zirconia and the effects they
produce in the opposite enamel despite their high wear resistance known.

In order to create a natural appearance for monoblock
zirconia with high translucency compared to standard zirconia ceramic systems
with opaque appearance, it can be applied coloring before sintering. In
addition, glazing and polishing for surface gloss and aesthetic procedures can
be performed. Zirconia ceramic material
type, translucency property and surface treatments are important parameters in
improving the aesthetic and optical properties. The translucency of zirconia
restorations is an important requisite property since natural teeth is
translucent.

Keywords: Monolithic zirconia, aesthetic, wear
resistance

Anahtar Kelimeler

Monolitik zirkonya, estetik

Kaynakça

1. Nakamura K, Harada A, Inagaki R, Kanno T, Niwano Y, Milleding P, Örtengren U. Fracture resistance of monolithic zirconia molar crowns with reduced thickness. Acta Odontol Scand 2015;73:602-8.
2. Beuer F, Edelhoff D, Gernet W, Naumann M. Effect of preparation angles on the precision of zirconia crown copings fabricated by CAD/CAM system. Dent Mater J 2008;27:814–20.
3. Preis V, Behr M, Kolbeck C, Hahnel S, Handel G, Rosentritt M. Wear performance of substructure ceramics and veneering porcelains. Dent Mater 2011;27:796-804.
4. Kim HK, Kim SH. Effect of the number of coloring liquid applications on the optical properties of monolithic zirconia. Dent Mater 2014;30:229-37.
5. Cardelli P, Manobianco FP, Serafini N, Murmura G, Beuer F. Full-arch, implant-supported monolithic zirconia rehabilitations: pilot clinical evaluation of wear against natural or composite teeth. J Prosthet Dent 2015;10.1111:1-5.
6. Stober T, Bermejo JL, Rammelsberg P, Schmıtter M. Enamel wear caused by monolithic zirconia crowns after 6 months of clinical use. J Oral Rehabil 2014;41:314-22.
7. Preis V, Weiser F, Handel G, Rosentritt M. Wear performance of monolithic dental ceramics with different surface treatments. Quintessence Int 2013;44:393-405.
8. Bindl A, Lüthy H, Mörmann WH. Strength and fracture pattern of monolithic CAD/CAM-generated posterior crowns. Dent Mater 2006;22:29-36.
9. Park JH, Park S, Lee K, Yun KD, Lim HP. Antagonist wear of three CAD/CAM anatomic contour zirconia ceramics. J Prosthet Dent 2014;111:20-9.
10. Oh WS, Delong R, Anusavice KJ. Factors affecting enamel and ceramic wear: a literature review. J Prosthet Dent 2002;87:451-9.
11. Harianawala HH, Kheur, MG, Apte SK, Kale BB, Sethı TS, Kheur SM. Comperative analyse of transmittance for different types of commercially avaible zirconia and lithium disilicate materials. J Adv Prosthodont 2014;6:456-61.
12. Sulaiman TA, Abdulmajeed AA, Donovan TE, Ritter AV, Vallittu PK, Närhi TO, Lassila LV. Optical properties and light irradiance of monolithic zirconia at variable thicknesses. Dent Mater 2015;31:1180-7.
13. Ueda K, Güth JF, Erdelt K, Stimmelmayr M, Kappert H, Beuer F. Light transmittance by a multi-coloured zirconia material. Dent Mater J 2015;34:310-4.
14. Matsuzaki F, Sekine H, Honma S, Takanashi T, Furuya K, Yajima Y, Yoshinari M. Translucency and flexural strength of monolithic translucent zirconia and porcelain-layered zirconia. Dent Mater J 2015;34:910-7.
15. Nordahl N, Vult von Steyern P, Larsson C. Fracture strength of ceramic monolithic crown systems of different thickness. J Oral Sci 2015;57:255-61.
16. Zhang F, Vanmeensel K, Batuk M, Hadermann J, Inokoshi M, Van Meerbeek B, Naert I, Vleugels J. Highly-translucent, strong and aging-resistant 3Y-TZP ceramics for dental restoration by grain boundary segregation. Acta Biomater 2015;16:215-22.
17. Kim HK, Kim SH, Lee JB, Han JS. Effect of polishing and glazing on the color and spectral distribution of monolithic zirconia. J Adv Prosthodont 2013;5:296-304.
18. Sadid-Zadeh R, Lıu PR, Aponte-Wesson R, O'neal SJ. Maxillary cement retained implant supported monolithic zirconia prosthesis in a full mouth rehabilitation: a clinical report. J Adv Prosthodont 2013;5:209-17.
19. Stawarczyk B, Ozcan M, Hallmann L, Ender A, Mehl A, Hammerlet CH. The effect of zirconia sintering temperature on flexural strength, grain size, and contrast ratio. Clin Oral Investig 2013a;17:269-74.
20. Bavbek NC, Roulet JF, Ozcan M. Evaluation of microshear bond strength of orthodontic resin cement to monolithic zirconium oxide as a function of surface conditioning method. J Adhes Dent 2014;16:473-80.
21. Majić Renjo M, Curkovıc L, Stefancıc S, Corıc D. Indentation size effect of Y-TZP dental ceramics. Dent Mater 2014;30:371-6.
22. Sripetchdanond J, Leevailoj C. Wear of human enamel opposing monolithic zirconia, glass ceramic, and composite resin: an in vitro study. J Prosthet Dent 2014;112:1141-50.
23. Sun T, Zhou S, Lai R, Liu R, Ma S, Zhou Z, Longquan S. Load-bearing capacity and the recommended thickness of dental monolithic zirconia single crowns. J Mech Behav Biomed Mater 2014;35:93-101.
24. Zesewitz TF, Knauber AW, Northdurft FP. Fracture resistance of a selection of full-contour all-ceramic crowns: an in vitro study. Int J Prosthodont 2014;27:264-6.
25. Qeblawi DM, Campillo-Funollet M, Muñoz CA. In vitro shear bond strength of two self-adhesive resin cements to zirconia. J Prosthet Dent 2015;113:122-7.
26. Sulaiman TA, Abdulmajeed AA, Donovan TE, Ritter AV, Lassila LV, Vallittu PK, Närhi TO. Degree of conversion of dual-polymerizing cements light polymerized through monolithic zirconia of different thicknesses and types. J Prosthet Dent 2015;114:103-8.
27. Venezia P, Torsello F, Cavalcanti R, D'Amato S. Retrospective analysis of 26 complete-arch implant-supported monolithic zirconia prostheses with feldspathic porcelain veneering limited to the facial surface. J Prosthet Dent 2015;114:506-12.
28. Preis V, Schmalzbauer M, Bougeard D, Schneider-Feyrer S, Rosentritt M. Surface properties of monolithic zirconia after dental adjustment treatments and in vitro wear simulation. J Dent 2015;43:133-9.
29. Jung YS, Lee JW, Choi YJ, Ahn JS, Shin SW, Huh JB. A study on the in-vitro wear of the natural tooth structure by opposing zirconia or dental porcelain. J Adv Prosthodont 2010;2:111–5.
30. Stawarczyk B, Frevert K, Ender A, Roos M, Sener B, Wimmer T. Comparison of four monolithic zirconia materials with conventional ones: Contrast ratio, grain size, four-point flexural strength and two-body wear. J Mech Behav Biomed Mater 2015;59:128-38.
31. Mundhe K, Jain V, Pruthi G, Shah N. Clinical study to evaluate the wear of natural enamel antagonist to zirconia and metal ceramic crowns. J Prosthet Dent 2015;114:358-63.
32. Cheng CW, Chien CH, Chen CJ, Papaspyridakos, P. Complete-mouth implant rehabilitation with modified monolithic zirconia implant-supported fixed dental prostheses and an immediate-loading protocol: a clinical report. J Prosthet Dent 2013;109:347-52.
33. Amer R, Kürklü D, Johnston W. Effect of simulated mastication on the surface roughness of three ceramic systems. J Prosthet Dent 2015;114:260-5.
34. Cattani-Lorente M, Durual S, Amez-Droz M, Wiskott HW, Scherrer SS. Hydrothermal degradation of a 3Y-TZP translucent dental ceramic: A comparison of numerical predictions with experimental data after 2 years of aging. 2016;32:394-402.
35. Janyavula S, Lawson N, Cakir D, Beck P, Ramp LC, Burgess JO. The wear of polished and glazed zirconia against enamel. J Prosthet Dent 2013;109:22-9.
36. Amer R, Kurklu D, Kateeb E, Seghi RR. Three body wear potential of dental yttrium-stabilized zirconia ceramic after grinding, polishing, and glazing treatments. J Prosthet Dent 2014;112:1151-5.
37. Mitov G, Heintze SD, Walz S, Woll K, Muecklıch F, Pospıech P. Wear behavior of dental Y-TZP ceramic against natural enamel after different finishing procedures. Dent Mater 2012;28:909–18.
38. Kontos L, Schille C, Schweizer E, Geis-Gerstorfer J. Influence of surface treatment on the wear of solid zirconia. Acta Odontol Scand 2013;71:482–7.
39. Sabrah AH, Cook NB, Luangruangrong P, Hara AT, Bottino MC. Full-contour Y-TZP ceramic surface roughness effect on synthetic hydroxyapatite wear. Dent Mater 2013;29:666-73.
40. Johansson C, Kmet G, Rivera J, Larsson C, Vult Von Steyern P. Fracture strength of monolithic all-ceramic crowns made of high translucent yttrium oxide-stabilized zirconium dioxide compared to porcelain-veneered crowns and lithium disilicate crowns. Acta Odontol Scand 2014;72:145–153.
41. Ha SR. Biomechanical three-dimensional finite element analysis of monolithic zirconia crown with different cement type. J Adv Prosthodont 2015;7:475-83.
42. Kim HK, Kim SH, Lee JB, Ha SR. Effects of surface treatments on the translucency, opalescence, and surface texture of dental monolithic zirconia ceramics. J Prosthet Dent 2016;115;773-9.
43. Sulaiman TA, Abdulmajeed AA, Donovan TE, Vallittu PK, Närhi TO, Lassila LV. The effect of staining and vacuum sintering on optical and mechanical properties of partially and fully stabilized monolithic zirconia. Dent Mater J 2015;34:605-10.
44. Kurtulmus-Yılmaz S, Ulusoy M. Comparison of the translucency of shaded zirconia all-ceramic systems. J Adv Prosthodont 2014;6:415-22.
45. Denry I, Kelly JR. State of the art o zirconia for dental applications. Dent Mater 2008;24:299-307.
46. Sulaiman TA, Abdulmajeed AA, Shahramian K, Hupa L, Donovan TE, Vallittu P, Närhi TO. Impact of gastric acidic challenge on surface topography and optical properties of monolithic zirconia. Dent Mater 2015;31:1445-52.
47. Srikanth R, Kosmac T, Della Bona A, Yin L, Zhang Y. Effects of cementation surface modifications on fracture resistance of zirconia. Dent Mater 2015;31:435-42.
48. Heffernan MJ, Aquilino SA, Diaz-Arnold, AM, Haselton DR, Stanford, CM, Vargas MA. Relative translucency of six all-ceramic systems. Part I: core materials. J Prosthet Dent 2002;88:4-9.
49. Herrguth M, Wichmann M, Reich S. The aesthetics of all-ceramic venered and monolithic CAD/CAM crowns. J Oral Rehabil 2005;32:747-52.
50. Ilie N, Stawarczyk B. Quantification of the amount of blue light passing through monolithic zirconia with respect to thickness and polymerization conditions. J Prosthet Dent 2015;113:114-21.
51. Heffernan MJ, Aquilino SA, Diaz-Arnold, AM, Haselton DR, Stanford, CM, Vargas MA. Relative translucency of six all-ceramic systems. Part II: core and veneer materials. J Prosthet Dent 2002;88:10-5.
52. Klimke J, Trunec M, Krell A. Transparent tetragonal yttria-stabilized zirconia ceramics: influence of scattering caused by birefringence. J Am Ceram Soc 2011;94:1850-8.
53. Ebeid K, Wille S, Hamdy A, Salah T, El-Etreby A, Kern M. Effect of changes in sintering parameters on monolithic translucent zirconia. Dent Mater 2014;30:419-24.
54. Yu Zhang. Making yttria-stabilized tetragonal zirconia translucent. Dent Mater 2014;30:1195-203.
55. Heather JC, Seong WJ, Peson IJ. Current ceramic materials and systems with clinical recommendations: A systematic review. J Prosthet Dent 2007;98:389-404.
56. Vichi A, Louca C, Corciolani G, Ferrari M. Color related to ceramic and zirconia restorations: a review. Dent Mater 2011;27:97-108.
57. Akar GC, Pekkan G, Cal E, Eskitaşçıoğlu G, Ozcan M. Effects of surface-finishing protocols on the roughness, color change, and translucency of different ceramic systems. J Prosthet Dent 2014;112:314-21.
58. Wang F, Takahashi H, Iwasaki N. Translucency of dental ceramics with different thicknesses. J Prosthet Dent 2013;110:14-20.
59. Sinmazisik G, Tarcın B, Demirbas B, Gulmez T, Bor E, Ozer F. The effect of zirconia thickness on the biaxial flexural strenght of zirconia ceramic bilayered discs. Dent Mater J 2015;34:640-7.
60. Bayramoğlu E, Özkan Y. Comparing of glass ceramic restorations and zirconia based ceramic restorations. J Dent Fac Atatürk Uni Supplement. 2012;5:110-123.

Toplam 60 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	Türkçe
Konular	Sağlık Kurumları Yönetimi
Bölüm	Derleme
Yazarlar	Rukiye Durkan Gdnca Deste Bu kişi benim Hatice Şimşek Bu kişi benim
Yayımlanma Tarihi	22 Nisan 2018
Yayımlandığı Sayı	Yıl 2018 Cilt: 28 Sayı: 2

Kaynak Göster

APA	Durkan, R., Deste, G., & Şimşek, H. (2018). MONOLİTİK ZİRKONYA SERAMİK SİSTEMLERİNİN ÜRETİM TİPLERİ İLE AŞINMA, OPTİK VE ESTETİK ÖZELLİKLERİ. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi, 28(2), 263-270. https://doi.org/10.17567/ataunidfd.419064
AMA	Durkan R, Deste G, Şimşek H. MONOLİTİK ZİRKONYA SERAMİK SİSTEMLERİNİN ÜRETİM TİPLERİ İLE AŞINMA, OPTİK VE ESTETİK ÖZELLİKLERİ. Ata Diş Hek Fak Derg. Nisan 2018;28(2):263-270. doi:10.17567/ataunidfd.419064
Chicago	Durkan, Rukiye, Gdnca Deste, ve Hatice Şimşek. “MONOLİTİK ZİRKONYA SERAMİK SİSTEMLERİNİN ÜRETİM TİPLERİ İLE AŞINMA, OPTİK VE ESTETİK ÖZELLİKLERİ”. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi 28, sy. 2 (Nisan 2018): 263-70. https://doi.org/10.17567/ataunidfd.419064.
EndNote	Durkan R, Deste G, Şimşek H (01 Nisan 2018) MONOLİTİK ZİRKONYA SERAMİK SİSTEMLERİNİN ÜRETİM TİPLERİ İLE AŞINMA, OPTİK VE ESTETİK ÖZELLİKLERİ. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi 28 2 263–270.
IEEE	R. Durkan, G. Deste, ve H. Şimşek, “MONOLİTİK ZİRKONYA SERAMİK SİSTEMLERİNİN ÜRETİM TİPLERİ İLE AŞINMA, OPTİK VE ESTETİK ÖZELLİKLERİ”, Ata Diş Hek Fak Derg, c. 28, sy. 2, ss. 263–270, 2018, doi: 10.17567/ataunidfd.419064.
ISNAD	Durkan, Rukiye vd. “MONOLİTİK ZİRKONYA SERAMİK SİSTEMLERİNİN ÜRETİM TİPLERİ İLE AŞINMA, OPTİK VE ESTETİK ÖZELLİKLERİ”. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi 28/2 (Nisan 2018), 263-270. https://doi.org/10.17567/ataunidfd.419064.
JAMA	Durkan R, Deste G, Şimşek H. MONOLİTİK ZİRKONYA SERAMİK SİSTEMLERİNİN ÜRETİM TİPLERİ İLE AŞINMA, OPTİK VE ESTETİK ÖZELLİKLERİ. Ata Diş Hek Fak Derg. 2018;28:263–270.
MLA	Durkan, Rukiye vd. “MONOLİTİK ZİRKONYA SERAMİK SİSTEMLERİNİN ÜRETİM TİPLERİ İLE AŞINMA, OPTİK VE ESTETİK ÖZELLİKLERİ”. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi, c. 28, sy. 2, 2018, ss. 263-70, doi:10.17567/ataunidfd.419064.
Vancouver	Durkan R, Deste G, Şimşek H. MONOLİTİK ZİRKONYA SERAMİK SİSTEMLERİNİN ÜRETİM TİPLERİ İLE AŞINMA, OPTİK VE ESTETİK ÖZELLİKLERİ. Ata Diş Hek Fak Derg. 2018;28(2):263-70.

Cited By

TAM KONTÜR ZİRKONYA RESTORASYONLARIN FARKLI ALL ON FOUR MANDİBULAR İMPLANT MODELLERİNDE BİYOMEKANİK DAVRANIŞLARI: 3 BOYUTLU SONLU ELEMANLAR STRES ANALİZİ ÇALIŞMASI

Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi

Gonca DESTE

https://doi.org/10.17567/ataunidfd.554400

Makale Dosyaları

Tam Metin

Bu eser Creative Commons Alıntı-GayriTicari-Türetilemez 4.0 Uluslararası Lisansı ile lisanslanmıştır. Tıklayınız.