Effect of temporary cements on the bond strength of ceramic luted to dentin.
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[1] J. Tagami,et al. Elemental distributions and microtensile bond strength of the adhesive interface to normal and caries-affected dentin. , 2005, Journal of biomedical materials research. Part B, Applied biomaterials.
[2] F. Tay,et al. Adhesive permeability affects coupling of resin cements that utilise self-etching primers to dentine. , 2004, Journal of dentistry.
[3] In-Sung Yeo,et al. In vitro marginal fit of three all-ceramic crown systems. , 2003, The Journal of prosthetic dentistry.
[4] P. Lambrechts,et al. Microtensile bond strengths of an etch&rinse and self-etch adhesive to enamel and dentin as a function of surface treatment. , 2003, Operative dentistry.
[5] F. Tay,et al. Factors contributing to the incompatibility between simplified-step adhesives and chemically-cured or dual-cured composites. Part III. Effect of acidic resin monomers. , 2003, The journal of adhesive dentistry.
[6] G. Ambrosano,et al. Influence of smear layer pretreatments on bond strength to dentin. , 2002, The journal of adhesive dentistry.
[7] D. Pashley,et al. Adverse surface interactions between one-bottle light-cured adhesives and chemical-cured composites. , 2001, Dental materials : official publication of the Academy of Dental Materials.
[8] L. H. Burnett,et al. Comparative study of influence on tensile bond strength of a composite to dentin using Er:YAG laser, air abrasion, or air turbine for preparation of cavities. , 2001, Journal of clinical laser medicine & surgery.
[9] M. Kubota,et al. Effect of temporary materials on bond strength of resin-modified glass-ionomer luting cements to teeth. , 2000, American journal of dentistry.
[10] H. Yatani,et al. Pilot study of conditioner/primer effects on resin-dentin bonding after provisional cement contamination using SEM, energy dispersive x-ray spectroscopy, and bond strength evaluation measures. , 2000, The Journal of prosthetic dentistry.
[11] E. Hellwig,et al. Effect of different luting procedures on the seating of ceramic inlays. , 2000, Journal of oral rehabilitation.
[12] A. Wennerberg,et al. In vitro dentin pretreatment: surface roughness and adhesive shear bond strength. , 1999, European journal of oral sciences.
[13] R. Hickel,et al. Bond strength of composite to dentin treated by air abrasion. , 1999, Operative dentistry.
[14] R. Frankenberger,et al. Dentin bond strength and marginal adaptation: direct composite resins vs ceramic inlays. , 1999, Operative dentistry.
[15] A. Peutzfeldt,et al. Influence of eugenol-containing temporary cement on efficacy of dentin-bonding systems. , 1999, European journal of oral sciences.
[16] J. Tagami,et al. Selective caries removal with air abrasion. , 1998, Operative dentistry.
[17] C. Ganss,et al. Effect of eugenol-containing temporary cements on bond strength of composite to dentin. , 1998, Operative dentistry.
[18] H. Yatani,et al. Temporary cement remnants as an adhesion inhibiting factor in the interface between resin cements and bovine dentin. , 1997, International Journal of Prosthodontics.
[19] H. Lüthy,et al. Effect of cleaning dentine with soap and pumice on shear bond strength of dentine-bonding agents. , 1997, Journal of oral rehabilitation.
[20] P. Schärer,et al. Effect of provisional cements on the bond strength of various adhesive bonding systems on dentine. , 1997, Journal of oral rehabilitation.
[21] H. Duschner,et al. Dentinal adhesion and histomorphology of two dentinal bonding agents under the influence of eugenol. , 1997, Quintessence international.
[22] P. Lambrechts,et al. The interaction of adhesive systems with human dentin. , 1996, American journal of dentistry.
[23] Myers Td. Advances in air abrasive technology. , 1994 .
[24] J. Attal,et al. Effects of surface treatment on the free surface energy of dentin. , 1994, Dental materials : official publication of the Academy of Dental Materials.
[25] S. Rusby,et al. Dentine bonding--the effect of pre-curing the bonding resin , 1994, British Dental Journal.
[26] R E Goldstein,et al. Air-abrasive technology: its new role in restorative dentistry. , 1994, Journal of the American Dental Association.
[27] T. Myers. Advances in air abrasive technology. , 1994, Journal of the California Dental Association.
[28] R. Terata. Characterization of enamel and dentin surfaces after removal of temporary cement--study on removal of temporary cement. , 1993, Dental materials journal.
[29] Woody Tl,et al. The effect of eugenol-containing and eugenol-free temporary cements on microleakage in resin bonded restorations. , 1992 .
[30] T. Hilton,et al. Effect of temporary cements on the bond strength of a resin cement. , 1992, American Journal of Dentistry.
[31] A. Murakami,et al. Essential oil phenyl propanoids. Useful as .OH scavengers? , 1992, Free radical research communications.
[32] R. Davis,et al. The effect of eugenol-containing and eugenol-free temporary cements on microleakage in resin bonded restorations. , 1992, Operative dentistry.
[33] W. Hume. In vitro studies on the local pharmacodynamics, pharmacology and toxicology of eugenol and zinc oxide-eugenol. , 2007, International endodontic journal.
[34] G. Marshall,et al. The influence of various cavity bases on the micro-hardness of composites. , 1982, Australian dental journal.
[35] Katora Me,et al. Airbrasive etching of the enamel surface. , 1981 .
[36] M. Katora,et al. Airbrasive etching of the enamel surface. , 1981, Quintessence international, dental digest.