Effect of thermal cycling on whisker-reinforced dental resin composites

[1]  J. Antonucci,et al.  Indentation modulus and hardness of whisker-reinforced heat-cured dental resin composites. , 2000, Dental materials : official publication of the Academy of Dental Materials.

[2]  H. H. Xu,et al.  Whisker-reinforced Heat-cured Dental Resin Composites: Effects of Filler Level and Heat-cure Temperature and Time , 2000, Journal of dental research.

[3]  H. Xu,et al.  Dental Composite Resins Containing Silica-fused Ceramic Single-crystalline Whiskers with Various Filler Levels , 1999, Journal of dental research.

[4]  D. Watts,et al.  Creep and visco-elastic recovery of cured and secondary-cured composites and resin-modified glass-ionomers. , 1999, Dental materials : official publication of the Academy of Dental Materials.

[5]  J. Antonucci,et al.  Ceramic Whisker Reinforcement of Dental Resin Composites , 1999, Journal of dental research.

[6]  J. Ferracane,et al.  In vitro aging of dental composites in water--effect of degree of conversion, filler volume, and filler/matrix coupling. , 1998, Journal of biomedical materials research.

[7]  J. Y. Thompson,et al.  A characterization of first-generation flowable composites. , 1998, Journal of the American Dental Association.

[8]  E Romberg,et al.  Indentation Damage and Mechanical Properties of Human Enamel and Dentin , 1998, Journal of dental research.

[9]  G. Schuster,et al.  Effect of Heating Delay on Conversion and Strength of a Post-cured Resin Composite , 1998, Journal of dental research.

[10]  F. Rueggeberg,et al.  Effect of photoinitiator level on properties of a light-cured and post-cure heated model resin system. , 1997, Dental materials : official publication of the Academy of Dental Materials.

[11]  J L Ferracane,et al.  In vitro Wear of Composite with Varied Cure, Filler Level, and Filler Treatment , 1997, Journal of dental research.

[12]  P. Lambrechts,et al.  Comparative Physico-mechanical Characterization of New Hybrid Restorative Materials with Conventional Glass-ionomer and Resin Composite Restorative Materials , 1997, Journal of dental research.

[13]  K. T. Ritchie,et al.  Short‐Crack Toughness and Abrasive Machining of Silicon Nitride , 1996 .

[14]  S. Jahanmir,et al.  Influence of microstructure on indentation and machining of dental glass-ceramics , 1996 .

[15]  S. Jahanmir,et al.  Microfracture and material removal in scratching of alumina , 1995 .

[16]  B. Lawn,et al.  Effect of microstructural coarsening on Hertzian contact damage in silicon nitride , 1995 .

[17]  I. Lloyd,et al.  Short‐Crack Mechanical Properties and Failure Mechanisms of Si3N4‐Matrix/SiC‐Fiber Composites , 1994 .

[18]  G. Willems,et al.  Assessment by Nano-indentation of the Hardness and Elasticity of the Resin-Dentin Bonding Area , 1993, Journal of dental research.

[19]  G. Willems,et al.  Hardness and Young's modulus determined by nanoindentation technique of filler particles of dental restorative materials compared with human enamel. , 1993, Journal of biomedical materials research.

[20]  B. Lawn Fracture of Brittle Solids by Brian Lawn , 1993 .

[21]  G Willems,et al.  A classification of dental composites according to their morphological and mechanical characteristics. , 1992, Dental materials : official publication of the Academy of Dental Materials.

[22]  A. Peutzfeldt,et al.  Mechanical properties of heat treated restorative resins for use in the inlay/onlay technique. , 1990, Scandinavian journal of dental research.

[23]  K. Yanagisawa,et al.  Gradual Increases in Marginal Leakage of Resin Composite Restorations with Thermal Stress , 1990, Journal of dental research.

[24]  K. Leinfelder,et al.  The clinical evaluation of heat-treated composite resin inlays. , 1990, Journal of the American Dental Association.

[25]  W. Krause,et al.  Mechanical properties of BIS-GMA resin short glass fiber composites. , 1989, Journal of biomedical materials research.

[26]  P. Lambrechts,et al.  Mechanical properties and filler fraction of dental composites. , 1989, Dental materials : official publication of the Academy of Dental Materials.

[27]  W. Douglas,et al.  Microleakage in Class II Composite Restorations Bonded to Dentin Using Thermal and Load Cycling , 1988, Journal of dental research.

[28]  Wendt Sl The effect of heat used as a secondary cure upon the physical properties of three composite resins. I. Diametral tensile strength, compressive strength, and marginal dimensional stability. , 1987 .

[29]  B. K. Moore,et al.  Properties of Microfilled Composite Resins as Influenced by Filler Content , 1985, Journal of dental research.

[30]  E. Munksgaard,et al.  Dentin-Polymer Bond in Resin Fillings Tested in vitro by Thermo- and Load-cycling , 1985, Journal of dental research.

[31]  M Bergman,et al.  Hydrolytic Degradation of Dental Composites , 1984, Journal of dental research.

[32]  T. Chen,et al.  Solvent Effects on Bonding Organo-silane to Silica Surfaces , 1982, Journal of dental research.

[33]  K. Söderholm Degradation of Glass Filler in Experimental Composites , 1981, Journal of dental research.

[34]  D C Watts,et al.  Intrinsic 'soft-start' polymerisation shrinkage-kinetics in an acrylate-based resin-composite. , 1999, Dental materials : official publication of the Academy of Dental Materials.

[35]  K. J. Rossomando,et al.  Thermocycling and dwell times in microleakage evaluation for bonded restorations. , 1995, Dental materials : official publication of the Academy of Dental Materials.

[36]  J. Ferracane,et al.  The effect of resin formulation on the degree of conversion and mechanical properties of dental restorative resins. , 1986, Journal of biomedical materials research.

[37]  R. Bowen Properties of a silica-reinforced polymer for dental restorations. , 1963, Journal of the American Dental Association.