Results 231 to 240 of about 20,260 (265)
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Hygroscopic expansion kinetics of dental resin-composites
Dental Materials, 2014To evaluate the extent and rate of hygroscopic expansion of resin composites at 37°C.Eight resin composites were examined: 1 micro-hybrid (Bright Light(®)), 5 nano-hybrids (Experimental Vertise™; Nanoceram-Bright(®); Tetric EvoCeram(®); Grandio(®) SO; Ceram X™ duo) and 2 flowables (X-tra base; Venus(®) Diamond Flow).
Alrahlah, A. +2 more
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The influence of resin chemistry on a dental composite's biodegradation
Journal of Biomedical Materials Research Part A, 2004AbstractPrevious work reported that commercial dental composite resins containing a urethane‐modified bisGMA (bisphenylglycidyl dimethacrylate)/TEGDMA (triethylene glycol dimethacrylate) (ubis) based monomer system showed a 10‐fold reduction in the release of a bisGMA‐derived product, bishydroxypropoxyphenyl propane (bisHPPP), as compared with that ...
Y, Finer, J P, Santerre
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Ceramic Whisker Reinforcement of Dental Resin Composites
Journal of Dental Research, 1999Resin composites currently available are not suitable for use as large stress-bearing posterior restorations involving cusps due to their tendencies toward excessive fracture and wear. The glass fillers in composites provide only limited reinforcement because of the brittleness and low strength of glass.
H H, Xu +3 more
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2012
Abstract This article discusses the composition of the major components of dental composite resins: organic resin matrix, filler, coupling agents, and initiator-accelerator systems. It describes the properties of composite resins that are related to the amount and type of filler and resin-matrix compositions.
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Abstract This article discusses the composition of the major components of dental composite resins: organic resin matrix, filler, coupling agents, and initiator-accelerator systems. It describes the properties of composite resins that are related to the amount and type of filler and resin-matrix compositions.
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Nanoparticle-reinforced resin-based dental composites
Journal of Dentistry, 2008TiO(2) nanoparticles treated with the organosilane allyltriethoxysilane (ATES) are used to improve the mechanical properties of dental resin-based composites (RBCs, Z100, 3M ESPE).TiO(2) nanoparticles were sonically dispersed in an ethanol solution containing ATES. The modified particles were washed in pure ethanol and dried before being used as filler.
Yang, Xia +3 more
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Post-curing in dental resin-based composites
Dental Materials, 2018To determine the post-curing in six commercial contemporary resin-based composites (RBCs) using axial shrinkage, the degree of conversion, and Vickers hardness.Five Bulk Fill and one conventional RBCs from three companies were selected with a wide range of filler volume content.
William, Germscheid +5 more
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HPLC analysis of dental resin composites components
Journal of Biomedical Materials Research, 1999Five uncured commercial dental resin composites (two bis-glycidyl methacrylate based products and three non-bis-glycidyl methacrylate based products) were examined for contamination with bisphenol A, which is a known xenobiotic. After the samples were processed with acetonitrile for extraction of their components, high performance liquid chromatography
M, Noda, H, Komatsu, H, Sano
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Composition of Dental Resin-Based Composites for Direct Restorations
2017Ever since the introduction of light-curable resin-based composites in the 1970s, these mixtures of organic and inorganic phases have continuously evolved to meet the increasing requirements of material design and dental practitioners. However, fundamentally, the chemistry of composite phases has not significantly changed, with material design that ...
Randolph, Luc D. +2 more
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Cytotoxicity of dental resin composites: an in vitro evaluation
Journal of Applied Toxicology, 2011ABSTRACTResin‐based dental restorative materials release residual monomers that may affect the vitality of pulp cells. The purpose of this study was to evaluate the cytotoxic effect of two light‐cured restorative materials with and without bis‐GMA resin, respectively (Clearfil Majesty Posterior and Clearfil Majesty Flow) and a self‐curing one (Clearfil
Ausiello P +6 more
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The Influence of Comonomer Composition on Dimethacrylate Resin Properties for Dental Composites
Journal of Dental Research, 1996During the polymerization of multifunctional monomers for dental restorations, typical final double-bond conversions range from 55 to 75%. The low conversion results in a large amount of extractable monomer, reduced adhesion to the filler, and the potential for increased swelling.
K S, Anseth +5 more
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