You are here

Home » Content

KOMFOZİT REZİN MATERYALLERİN SU EMİLlMİ VE ÇÖZÜNÜRLÜĞÜ

WATER SORPTION AND SOLUBILITY OF COMPOSITE RESIN MATERIALS

Journal Name:

  • Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi

Publication Year:

  • 2001

Key Words:

Keywords (Original Language):

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
The main objectives of this study were evaluated ihe water sorption and solubility of light-cured comosıte resm materials. Samples were prepared according to ISO 404; and store in distile water For periods varying between lh and 1 months. The weight changes of specimens after water immersion were recorded. The results were analysed by one-way ANOVA and Student-Neuman-Kculs Multiple Comparison test at p<0.05- Water sorption of Helioprogress and Valu\ Plus was the largest. Water solubility after 3 months was noted in the following order, Valux plus.Tetnc Ceram.HelioprogrcsB and TPH Spectrum
Bookmark/Search this post with
Abstract (Original Language): 
Bu çalışmanın amacı ışıkla polimcri/.e olan kompozit rezin materyallerin su emil i mi vc çözünürlüğü değerlendirmektir. Örnekler ISO 4049' a göre hazırlandı vc I sasıt ile 3 ay arasında değişen periyotlarda dıstılc su içerisinde bekletildi. Suya batırma sonrası örneklerin a«ırhk değişimleri kaydedildi. Sonuçlar tek. yönlü varyans analizi ile vc Studcnt-Ncuman-Keuls Multiple Comparison testi ile p<0.05 seviyesinde değerlendirildi. En lazla su emüimim Helınprogress vc Valux Plus gösterdi. 3 ay sonraki sudaki çözünürlük değerlerine göre materyallerin sıralaması, Valujt plns, Tctne Ccram. Ilehoprogress vc TPH Spectrum şeklindedir.
FULL TEXT (PDF): 
PDF icon arastirmax-komfozit-rezin-materyallerin-su-emillmi-cozunurlugu.pdf
  • 3
7-10
  • Turkish

REFERENCES

References: 

L
Arnold AM, Arnold MA, Williams VD. Measurement of water .sorption by resin composite adhesives "'ilh near . Infrared spectroscopy. J Dent Ties 1992;71:438-442.
2. Bastiûli C, Romano G, Migliarcsi C. Water soqjtion and mechanical properties of dental composites, Biomaterials 1990; I I: 219-223.
3. Bowcn RL. Properties of a silica-reinforced polymer for denial restorations. JADA 1963,66. 57-64.
4. Bradcn M, Davy KWM. Wilier absorption characteristics ol some ünlüleri resins. Biomaterials 1986; 7: 474-475.
5. Bradcn M, Clarke HI. Water absorption characteristics of denial rnicrofınc composite filling materials. 1. Proprietary materials, tiiomatcrials [98-1; 369-372.
6. Fcrracanc JL, Antonio RC, Malsumoio H. Variables affecting Lite fracture toughness, of denial composites . J Dent Res 1987; 66: I 140-1 "145.
7. Hansen KK, Asmusscn E. Effect of postponed polishing on marginal adaptation of resin used with dentin bonding agent. Scand J Dent Res 1088; %: 200-264.
8. Hinoura K, Setcos JC, Phillips WW. Cavity design and placement techniques for class II composites. Oper fient 1988; 13: 12-19.
9. International MandarLs Organization ISO slandarl 4049. Dentistry resin based fiilini; materials Geneva ISO 1994.
10. Indrani DJ. Cook WD, Televnntos F, Tyas MI, Harcourt IK. Eracturc toughness of water-aged resin composite restorative materials. Dent Mater 1995; II: 201-207.
11. Iwani Y, Yamamoto H, Sato W, Kawai K, Torii M, Hbisu S. Weight change of various light-cured restorative materials after water immersion. Oper l>enl 1998; 23(3): 132-137.
12. Jumlongras D, White GB, Bond .strengths of composite rcsm and compomers in primary and permanent teeth. J Clin Pedialr Dent 1977; 21. 223-229.
13. Kalachandra S, Wilson TW. Water sorption and mechanical properties ol light-cured proprietary composite tooth restorative materials. Biomaterials 1992; 13: 105-109.
14. Lundin SA, Noren JG. Marginal leakage in occlusally loaded, etched, class ]I composite resin restorations. Acta Odontol Scand 1991; 49: 247-254.
15. Matin N, Jcdynakicwicz N. Measurement of water sorption in denial composites. Biomaterials 1998; 19
(1-3): 77-83.
16. Ortengren U, Andcrsson F, Elgh. U,Terselius B, Karlsson S. Inllaenc-e of pH and storage time on the sorption and solubility behaviour of three composite resin materials J Dent 2Ü0J; 29: 35-4!,
17. Oysaed H, Ruyler H. Water sorption and filler characteristics of composites for use in posterior teeth. J Dent Res 1986; 65: 1315-1318.
18. Pearson GJ, Longman CM. Water sorption and solubility of resin based materials following inadequate polymerization by a visible-light curing svstcm. J Oral Rchabil 1989,16:57-61.
Î9.
Soderhol
m KJ, Degradation of glass filler in experimental composites. J Dent Res 1981; 60: 1867-1875.
20. 'lung FF, FistcTan D, Scherer W. Microleakage of a condensable resin composite: An in vitro investigation. Quintessence Int 2000; 31: 430-434.
21. Yap ALU. Resin-modified glass iunomer cement: a comparison of water sorption characteristics. Biomaterials 1996; 17: 1897-1900,
22. Yap AU, Lee CM- Water sorption and solubility of resin-modified polyalkenoale cements. .1 Oral Rciiabil 1997; 24: 310-314.
23. Yoshida K, Tanagava M, Atsuta M. In-vilro solubililv of ihree types of resin and conventional luting cements. J Oral Rehabil 1998: 25; 285-291.

Thank you for copying data from http://www.arastirmax.com