Dynamic thermomechanical properties and sorption characteristics of two commercial light cured dental resin composites

References 

1. Sperling LH. Introduction to physical polymer science. NY: John Wiley and Sons Inc.; 1992;
2. Turi EA. 2nd ed.. Thermal characterization of polymeric materials. vol. 1. NY: Academic Press; 1997;
3. Mesquita RV, Axmann D, Gerstorfer JG. Dynamic visco-elastic properties of dental composite resins. Dent Mater. 2006;22:258–267
   • Abstract
   • Full Text
   • Full-Text PDF (134 KB)
   • CrossRef
4. Enami N, Söderholm KJM. Dynamic mechanical thermal analysis of two light-cured dental composites. Dent Mater. 2005;21:977–983
   • Abstract
   • Full Text
   • Full-Text PDF (202 KB)
   • CrossRef
5. Sakagushi RL, Shah NC, Lim BS, Ferracane JL, Borgersen SE. Dynamic mechanical analysis of storage modulus development in light-activated polymer matrix composites. Dent Mater. 2002;18:197–202
   • Abstract
   • Full Text
   • Full-Text PDF (662 KB)
   • CrossRef
6. Sabbagh J, Vreven J, Leloup G. Dynamic and static moduli of elasticity of resin-based materials. Dent Mater. 2002;18:64–71
   • Abstract
   • Full Text
   • Full-Text PDF (238 KB)
   • CrossRef
7. Abe Y, Lambrechts P, Inoue S, Braem MJA, Takeuchi M, Vanherle G, et al. Dynamic elastic modulus of packable composites. Dent Mater. 2001;17:520–525
   • Abstract
   • Full Text
   • Full-Text PDF (146 KB)
   • CrossRef
8. Harris JS, Jacobsen PH, O’Doherty DM. The effect of curing light intensity and test temperature on the dynamic mechanical properties of two polymer composites. J Oral Rehabil. 1999;26:635–639
   • MEDLINE
   • CrossRef
9. Jacobsen PH, Darr AH. Static and dynamic moduli of composite restorative materials. J Oral Rehabil. 1997;24:265–273
   • MEDLINE
   • CrossRef
10. Ferracane JL. Hygroscopic and hydrolytic effects in dental polymer networks. Dent Mater. 2006;22:211–222
    • Abstract
    • Full Text
    • Full-Text PDF (270 KB)
    • CrossRef
11. Sideridou ID, Karabela MM, Bikiaris DN. Aging studies of light cured dimethacrylate-based dental resins and a resin composite in water or ethanol/water. Dent Mater. 2007;23:1142–1149
    • Abstract
    • Full Text
    • Full-Text PDF (1028 KB)
    • CrossRef
12. Beun S, Glorieux T, Devaux J, Vreven J, Leloup G. Characterization of nanofilled compared to universal and microfilled composites. Dent Mater. 2007;23:51–59
    • Abstract
    • Full Text
    • Full-Text PDF (825 KB)
    • CrossRef
13. Moszner N, Klapdohr S. Nanotechnology for dental composites. Int J Nanotechnol. 2004;1:130–156
14. Rees JS, Jacobsen PH, Hickman J. The elastic modulus of dentine determined by static and dynamic methods. Clin Mater. 1994;17:11–15
    • MEDLINE
    • CrossRef
15. Nielsen LE, Landel RF. Particulate filled polymers. Mechanical properties of polymers and composites. 2nd ed.. New York: Marcell Dekker; 1994;Chapter 7, pp. 377–459
16. Peng X, Gilha . Time–temperature-transformation (TTT) cure diagrams: relationship between Tg and the temperature and time of cure for epoxy systems. J Appl Polym Sci. 1985;30:614
17. Kloosterbroer JG, Lijten GFCM. Photopolymers exhibiting a large difference between glass transition and curing temperatures. Polymer. 1990;31:95
18. Cook WD, Simon GP, Burchill PJ, Lau M, Fitch TJ. J Appl Polym Sci. 1997;64:769–781
19. Braem M, Van Doren VE, Lambrechts P, Vanherle G. Determination of Young's modulus of dental composites: a phenomenological model. J Mater Sci. 1987;22:2037–2042
20. Kannurpatti AR, Anseth JW, Bowman CN. A study of the evolution of mechanical properties and structural heterogeneity of polymer networks formed by multifunctional (meth)acrylates. Polymer. 1998;12:2507–2513
21. Lu H, Lovell LG, Bowman CN. Exploiting the heterogeneity of cross-linked photopolymers to create high-Tg polymers from polymerizations performed at ambient conditions. Macromolecules. 2001;34:8021–8025
    • CrossRef