Refractive index mismatch and monomer reactivity influence composite curing depth.
about
Influence of extended light exposure curing times on the degree of conversion of resin-based pit and fissure sealant materials.Recent advances and developments in composite dental restorative materials.Effect of resin thickness, and curing time on the micro-hardness of bulk-fill resin composites.Depth of cure of bulk fill composites with monowave and polywave curing lights.The effect of different insertion techniques on the depth of cure and vickers surface micro-hardness of two bulk-fill resin composite materials.Review of translucency determinations and applications to dental materials.Shear bond strength of bulk-fill and nano-restorative materials to dentin.Color Stability of the Bulk-Fill Composite Resins with Different Thickness in Response to Coffee/Water Immersion.The effect of different beverages on the color and translucency of flowable composites.Effect of Nanofiller Loading on Cure Efficiency and Potential Color Change of Model Composites.Niobium pentoxide as a new filler for methacrylate-based root canal sealers.Relationships between conversion, temperature and optical properties during composite photopolymerization.Light transmittance and polymerization kinetics of amorphous calcium phosphate composites.Influence of dental resin material composition on cross-polarization-optical coherence tomography imaging.Effect of irradiation times on the polymerization depth of contemporary fissure sealants with different opacities.Degree of conversion of nano-hybrid resin-based composites with novel and conventional matrix formulation.ZnCl2 Incorporated into Experimental Adhesives: Selected Physicochemical Properties and Resin-Dentin Bonding Stability.Polymerization shrinkage stress of composite resins and resin cements - What do we need to know?Effect of shade, opacity and layer thickness on light transmission through a nano-hybrid dental composite during curing.Physicochemical properties and cytotoxicity of an experimental resin-based pulp capping material containing the quaternary ammonium salt and Portland cement.Comparative Effect of Self- or Dual-Curing on Polymerization Kinetics and Mechanical Properties in a Novel, Dental-Resin-Based Composite with Alkaline Filler. Running Title: Resin-Composites with Alkaline Fillers.Impact of Material Shade and Distance from Light Curing Unit Tip on the Depth of Polymerization of Composites.Light transmittance and micro-mechanical properties of bulk fill vs. conventional resin based composites.Degree of conversion and cross-link density within a resin-matrix composite.Model resin composites incorporating ZnO-NP: activity against S. mutans and physicochemical properties characterizationHow light attenuation and filler content affect the microhardness and polymerization shrinkage and translucency of bulk-fill composites?Polymerization kinetic calculations in dental composites: a method comparison analysis.Comparison of light-transmittance in dental tissues and dental composite restorations using incremental layering build-up with varying enamel resin layer thickness.
P2860
Q34469865-620B8286-324D-4081-86AA-5E2EDF4F1D01Q34624180-2A2ADB17-C2AE-4773-9561-CEA18DAA793FQ36328153-970394B6-9E4D-4FE3-AA20-88BCD6892DA2Q37045464-BAE74EEA-8611-46E4-B75C-ED2872A20060Q37637222-954362CF-1429-4F2D-B60C-51E21C2BC9A8Q38224200-6CCB12AC-AC33-4AAC-8EDC-E81B3652BAA4Q38866798-80C9801C-939C-45ED-AE6B-2E750246192CQ39611157-0714EDD0-E605-4065-B761-3F3342811CCBQ39739303-A4AE332B-4C01-4E55-8E25-9C2F7E83C94BQ39994418-D47BCF72-1B80-4207-BAA8-69FCAA04368DQ40055694-AAAE036C-5481-4A12-A9C4-8E29D517A31DQ40304228-4659D5CB-FF6F-4F1B-BCA3-5CB6B98466A0Q41598669-87BB78EB-BF74-4CEC-BC58-BFDEEB523C69Q42559766-6BB332AC-FCDE-4139-B38A-045FA87534B2Q44283374-997C24F5-2D09-494F-A2BF-88B012199B6FQ44417486-817A93AE-5712-4313-9287-77CE76277DFAQ47146636-9D0FACF7-26C4-4065-B9B5-8626A51387BCQ47680349-8AF5FFF9-0EB5-4A8D-8CD8-14ACFA1E6D8FQ48059427-D7641AD8-98D0-47B2-A407-48A3323A66CCQ48323289-A15C6AD6-00B6-4629-AE38-973A726D1B29Q49447282-E8E82A8D-552C-4405-B66A-7D44ABD37D28Q50033774-0F5B87F5-BFAC-400B-9A5A-7A278641A765Q50226386-3D76D182-7E88-4132-85A9-C7CA5D534962Q51838767-72E3D7C0-0060-4707-ADEA-2568B2E89BC9Q53058159-C471E664-7EF3-43C4-A31B-95982B0448ECQ54374567-6B5F5E40-CE05-493A-9521-5767064E763CQ54564159-1C7678FD-B96A-4132-93FD-B45448CE37A0Q54917337-BD4DADEC-43C9-4D17-96BF-2D7E5AA993BE
P2860
Refractive index mismatch and monomer reactivity influence composite curing depth.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
Refractive index mismatch and monomer reactivity influence composite curing depth.
@en
Refractive index mismatch and monomer reactivity influence composite curing depth.
@nl
type
label
Refractive index mismatch and monomer reactivity influence composite curing depth.
@en
Refractive index mismatch and monomer reactivity influence composite curing depth.
@nl
prefLabel
Refractive index mismatch and monomer reactivity influence composite curing depth.
@en
Refractive index mismatch and monomer reactivity influence composite curing depth.
@nl
P2860
P1476
Refractive index mismatch and monomer reactivity influence composite curing depth.
@en
P2093
A C Shortall
P Burtscher
P2860
P356
10.1177/154405910808700115
P407
P577
2008-01-01T00:00:00Z