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Year 2013, , 1 - 9, 23.01.2013
https://doi.org/10.7126/cdj.2013.1945

Abstract

Objectives:To investigate bond strengthbetween Estenia, is a kind of seromer has beenincreasingly used in dentistry, low fusing porcelainand titanium metal sub-structures after differentsurface treatments.Materials and Methods: In the present study,ISO9693:1999 standards 25x3x0.5mmdimensionsof the samples used prepared with titanium in themetal substructure. Metal sample surface blasting(n=12) and Nd-YAG laser with a blasting + laser(n=12) by application of the working groups wereformed. Low-temperature materials as porcelainsuperstructure estenia seromer group size 8x3x3mmmetal substructure to be appliedaccording to the instructions of the manufacturer.Later examples, universal testing device todetermine the three-point transverse fractureresistance test was performed. Unit load applicationrate of 0.5 mm/min and the distance between thejaws adjusted to 20 mm. Example of porcelainmetal sub-structure, divided into groups, the type ofthe current connection N/mmstrength values wererecorded. Mann-Whitney U test was used for theevaluation of the data obtained.Results: Titanium metal sub-structures in termsof strength of connection estenia materialdetermined to be sufficient, can be a seriousalternative to high temperature porcelains weredetected. However, the Nd: YAG laser irradiationof titanium surface connection valueswere determined in a value increase, but statistically notsignificant.Conclusion:Blasting and sandblasting +samples compared to laser therapy, sand blasting +laser groups showed no statistically significantdifferences in terms of connection strength.(p>0.05).

References

  • Kimura, H., Horng, C., Okazaki, M., Takahashi, J. (1990).Thermal compatibility of titanyum-porcelain system.J. Osaka Univ. Dent. Sch.; 30: 43-52.
  • Mclean, JW., Hughes, H. (1965). The reinforcement of dental porcelain with ceramic oxides. Br. Dent. J.; 119: 251-67.
  • Mutawa, NJA., Sato, T., Shğiozawa, I., Hasegawa, S., Miura, H. ( 2000). A study of bond strength and color of ultralow-fusing porcelain. Int J. Prosthodont.; 13: 519-25
  • Kelly, JR., Benetti, P. (2011). Ceramic materials in dentistry: historical evolution and current practice. Aust Dent J.; 56(1): 84-96.
  • Ku, CW., Park, SW., Yang, HS.(2002). Comparison of the fracture strengths of metal-ceramic crowns and three ceromer crowns. J Prosthet Dent.;88(2): 170-5.
  • Leinfelder, KF. 2005). Indirect posterior composite resins. Compend Contin Educ Dent.;26(7): 495-503.
  • Mehl, C., Scheibner, S., Ludwig, K., Kern, M. (2007). Wear of composite resin veneering materials and enamel in a chewing simulator. Dental Mater.;23(11): 1382-9.
  • Philips, RW. (1991). Skinner’s science of dental materials, WB Saunders Company, 9th Ed, Philadelphia.
  • Mclean, JW., Hughes, H.(1965) The reinforcement of dental porcelain with ceramic oxides. Br. Dent. J; 119: 251-67.
  • Türkmen, C., Sazak, H., Günday, M. (2006). Effects of the Nd:YAG laser, air-abrasion, And acid-etchant on filling materials. J. Oral Rehabil. 33(1):64–9.
  • Stabholz, A., Zelster, R., Sela, M., Peretz, B., Moshonov, J., Ziskind, D., Stabholz, A. (2003). The use of lasers in dentistry: Principles of operation and Clinical applications. Compendium 24(12): 935-948.
  • Kim, J.T.,Cho, S.A. (2009). The effects of laser etching on shear bond strength at the tıtanium ceramic interface. J Prosthet Dent; 101: 101-6.
  • Baez, R., Blackman, R., Serrano, C. (1997).Strength of low-firinge porcelains using three test modes. J. Dent. Res; (IADR Abstract) 76: 62.
  • Pang, IC., Gilbert, JL., Chai, J., Lautenschlager, EP. (1995). Bonding characteristics of low-fusing porcelain bonded to püre titanium and palladium-copper alloy, J Prosth Dent, 73, 17-25.
  • Yılmaz, H., Dinçer, C. (1999). Comparison of the bond compability of titanium and an nicr alloy to dental porcelain, J Dent, 27, 215-222.
  • Anusavice, KJ., Shen, C., Lee, R.B. (1992). Strengtening of feldsexchange and tempering. J. Dent. Res.;71:1134-1138.
  • Tugut, F., Akin, H., Mutaf, B., Akin G.E., Ozdemir, A.K. (2010). Strength of the bond between a silicone lining material and denture resin after Er:YAG laser treatments with different pulse durations and levels of energy. Lasers Med Sci DOI 10.1007/s10103-010-0862-1.
  • International Standart/ISO 9693. Metalceramic bond charecterization.(1999); p.111.
  • Deutsches Institut Fur Normung. DIN 13927. Metall-keramik Systeme. Beuth Verlag.Berlin, 1990; p: 1-10.

Porselen ile titanyumun bağlanma dayanımına Nd-YAG lazerin etkinliğinin incelenmesi

Year 2013, , 1 - 9, 23.01.2013
https://doi.org/10.7126/cdj.2013.1945

Abstract

Amaç: Diş hekimliğinde kullanımları giderek
yaygınlaşan seromer grubundan Estenia düşük ısı
porseleninin, titanyum metal alt yapılarla farklı
yüzey şartlandırmalarında bağlantı dayanımı
değerlendirmektir.
Gereç ve Yöntem: Çalışmamızda titanyumdan
ISO-9693:1999 standartlarına göre 25x3x0,5mm3 ebatlarında hazırlanan metal alt yapı örnekleri
kullanıldı. Metal örnek yüzeylerine kumlama
(n=12) ve Nd-YAG lazeri ile kumlama+lazer
(n=12) uygulamaları yapılarak çalışma grupları
oluşturuldu. Üst yapı porseleni olarak seromer
grubundan estenia düşük ısı materyali 8x3x3mm3 ebatlarında metal alt yapı üzerine üretici firma
talimatlarına uygun olacak şekilde uygulandı. Daha
sonra örneklere, transvers dirençlerinin tespit
edilmesi amacıyla üniversal test cihazında üç nokta
bükme testi uygulandı. Cihazın yük uygulama hızı
0,5 mm/dak ve çeneler arası mesafe 20mm olacak
şekilde ayarlandı. Örnek gruplarında porselenin
metal alt yapıdan ayrıldığı andaki bağlantı dayanım
değerleri N/mm2
türünden kaydedildi. Elde edilen
verilerin değerlendirilmesinde Mann-Whitney U
testi kullanıldı.
Bulgular: Kumlama ve kumlama+lazer
uygulanan örnekler kıyaslandığında,
kumlama+lazer gruplarında bağlantı dayanımı
yönünden istatistiksel anlamlı bir fark izlenmedi.
(p > 0,05).
Sonuç: Titanyum metal alt yapılara bağlantı
dayanımı yönünden yeterli seviyede olduğu
belirlenen estenia materyalinin, yüksek ısı
porselenlerine ciddi bir alternatif olabileceği tespit
edildi. Bununla birlikte Nd:YAG lazer
uygulamasının titanyum yüzey bağlantı değerlerini
artırdığı ancak istatistiksel olarak anlamlı bir fark
oluşturmadığı belirlendi.

References

  • Kimura, H., Horng, C., Okazaki, M., Takahashi, J. (1990).Thermal compatibility of titanyum-porcelain system.J. Osaka Univ. Dent. Sch.; 30: 43-52.
  • Mclean, JW., Hughes, H. (1965). The reinforcement of dental porcelain with ceramic oxides. Br. Dent. J.; 119: 251-67.
  • Mutawa, NJA., Sato, T., Shğiozawa, I., Hasegawa, S., Miura, H. ( 2000). A study of bond strength and color of ultralow-fusing porcelain. Int J. Prosthodont.; 13: 519-25
  • Kelly, JR., Benetti, P. (2011). Ceramic materials in dentistry: historical evolution and current practice. Aust Dent J.; 56(1): 84-96.
  • Ku, CW., Park, SW., Yang, HS.(2002). Comparison of the fracture strengths of metal-ceramic crowns and three ceromer crowns. J Prosthet Dent.;88(2): 170-5.
  • Leinfelder, KF. 2005). Indirect posterior composite resins. Compend Contin Educ Dent.;26(7): 495-503.
  • Mehl, C., Scheibner, S., Ludwig, K., Kern, M. (2007). Wear of composite resin veneering materials and enamel in a chewing simulator. Dental Mater.;23(11): 1382-9.
  • Philips, RW. (1991). Skinner’s science of dental materials, WB Saunders Company, 9th Ed, Philadelphia.
  • Mclean, JW., Hughes, H.(1965) The reinforcement of dental porcelain with ceramic oxides. Br. Dent. J; 119: 251-67.
  • Türkmen, C., Sazak, H., Günday, M. (2006). Effects of the Nd:YAG laser, air-abrasion, And acid-etchant on filling materials. J. Oral Rehabil. 33(1):64–9.
  • Stabholz, A., Zelster, R., Sela, M., Peretz, B., Moshonov, J., Ziskind, D., Stabholz, A. (2003). The use of lasers in dentistry: Principles of operation and Clinical applications. Compendium 24(12): 935-948.
  • Kim, J.T.,Cho, S.A. (2009). The effects of laser etching on shear bond strength at the tıtanium ceramic interface. J Prosthet Dent; 101: 101-6.
  • Baez, R., Blackman, R., Serrano, C. (1997).Strength of low-firinge porcelains using three test modes. J. Dent. Res; (IADR Abstract) 76: 62.
  • Pang, IC., Gilbert, JL., Chai, J., Lautenschlager, EP. (1995). Bonding characteristics of low-fusing porcelain bonded to püre titanium and palladium-copper alloy, J Prosth Dent, 73, 17-25.
  • Yılmaz, H., Dinçer, C. (1999). Comparison of the bond compability of titanium and an nicr alloy to dental porcelain, J Dent, 27, 215-222.
  • Anusavice, KJ., Shen, C., Lee, R.B. (1992). Strengtening of feldsexchange and tempering. J. Dent. Res.;71:1134-1138.
  • Tugut, F., Akin, H., Mutaf, B., Akin G.E., Ozdemir, A.K. (2010). Strength of the bond between a silicone lining material and denture resin after Er:YAG laser treatments with different pulse durations and levels of energy. Lasers Med Sci DOI 10.1007/s10103-010-0862-1.
  • International Standart/ISO 9693. Metalceramic bond charecterization.(1999); p.111.
  • Deutsches Institut Fur Normung. DIN 13927. Metall-keramik Systeme. Beuth Verlag.Berlin, 1990; p: 1-10.
There are 19 citations in total.

Details

Primary Language Turkish
Journal Section Original Research Articles
Authors

Oguzhan Görler

Ali Özdemir

Publication Date January 23, 2013
Submission Date January 23, 2013
Published in Issue Year 2013

Cite

EndNote Görler O, Özdemir A (July 1, 2013) Porselen ile titanyumun bağlanma dayanımına Nd-YAG lazerin etkinliğinin incelenmesi. Cumhuriyet Dental Journal 16 3 1–9.

Cumhuriyet Dental Journal (Cumhuriyet Dent J, CDJ) is the official publication of Cumhuriyet University Faculty of Dentistry. CDJ is an international journal dedicated to the latest advancement of dentistry. The aim of this journal is to provide a platform for scientists and academicians all over the world to promote, share, and discuss various new issues and developments in different areas of dentistry. First issue of the Journal of Cumhuriyet University Faculty of Dentistry was published in 1998. In 2010, journal's name was changed as Cumhuriyet Dental Journal. Journal’s publication language is English.


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