Spatio-temporal temperature fields generated coronally with bulk-fill resin composites: A thermography study.

[1]  S. Kunsági-Máté,et al.  Degree of conversion and in vitro temperature rise of pulp chamber during polymerization of flowable and sculptable conventional, bulk-fill and short-fibre reinforced resin composites. , 2021, Dental materials : official publication of the Academy of Dental Materials.

[2]  D. Watts,et al.  Polymerization shrinkage and shrinkage stress development in ultra-rapid photo-polymerized bulk fill resin composites. , 2021, Dental materials : official publication of the Academy of Dental Materials.

[3]  O. Gamulin,et al.  Rapid 3 s Curing: What Happens in Deep Layers of New Bulk-Fill Composites? , 2021, Materials.

[4]  D. Watts,et al.  Characterizing surface viscoelastic integrity of ultra-fast photo-polymerized composites: Methods development. , 2020, Dental materials : official publication of the Academy of Dental Materials.

[5]  D. Watts,et al.  Conversion kinetics of rapid photo-polymerized resin composites. , 2020, Dental materials : official publication of the Academy of Dental Materials.

[6]  J. Mercer,et al.  Heat Development in the Pulp Chamber During Curing Process of Resin-Based Composite Using Multi-Wave LED Light Curing Unit , 2020, Clinical, cosmetic and investigational dentistry.

[7]  D. Watts,et al.  Pre-heating time and exposure duration: Effects on post-irradiation properties of a thermo-viscous resin-composite. , 2020, Dental materials : official publication of the Academy of Dental Materials.

[8]  D. Watts,et al.  Outcomes of ultra-fast (3 s) photo-cure in a RAFT-modified resin-composite. , 2020, Dental materials : official publication of the Academy of Dental Materials.

[9]  S. Akarsu,et al.  Influence of Bulk-Fill Composites, Polimerization Modes, and Remaining Dentin Thickness on Intrapulpal Temperature Rise , 2019, BioMed research international.

[10]  R. Wang,et al.  Depth-dependence of Degree of Conversion and Microhardness for Dual-cure and Light-cure Composites. , 2019, Operative dentistry.

[11]  D. Watts,et al.  Pre-heating effects on extrusion force, stickiness and packability of resin-based composite. , 2019, Dental materials : official publication of the Academy of Dental Materials.

[12]  C. Pfeifer,et al.  Clinical performance and chemical-physical properties of bulk fill composites resin -a systematic review and meta-analysis. , 2019, Dental materials : official publication of the Academy of Dental Materials.

[13]  F. Rueggeberg,et al.  Comparison of in vivo and in vitro models to evaluate pulp temperature rise during exposure to a Polywave® LED light curing unit , 2019, Journal of applied oral science : revista FOB.

[14]  J. Ferracane,et al.  Effect of pulse-width-modulated LED light on the temperature change of composite in tooth cavities. , 2019, Dental materials : official publication of the Academy of Dental Materials.

[15]  S. Kunsági-Máté,et al.  Effect of exposure time and pre-heating on the conversion degree of conventional, bulk-fill, fiber reinforced and polyacid-modified resin composites. , 2019, Dental materials : official publication of the Academy of Dental Materials.

[16]  M. Tahriri,et al.  Rheological properties of contemporary nanohybrid dental resin composites: The influence of preheating , 2018, Polymer Testing.

[17]  F. Rueggeberg,et al.  Influence of Class V preparation on in vivo temperature rise in anesthetized human pulp during exposure to a Polywave® LED light curing unit. , 2018, Dental materials : official publication of the Academy of Dental Materials.

[18]  N. Ilie Sufficiency of curing in high-viscosity bulk-fill resin composites with enhanced opacity , 2018, Clinical Oral Investigations.

[19]  M. Hadis,et al.  Shining a light on high volume photocurable materials. , 2018, Dental materials : official publication of the Academy of Dental Materials.

[20]  P. Coelho,et al.  Micro-computed tomography evaluation of volumetric polymerization shrinkage and degree of conversion of composites cured by various light power outputs. , 2017, Dental materials journal.

[21]  J. Ferracane,et al.  Thermographic analysis of the effect of composite type, layering method, and curing light on the temperature rise of photo-cured composites in tooth cavities. , 2017, Dental materials : official publication of the Academy of Dental Materials.

[22]  F. Rueggeberg,et al.  Light curing in dentistry and clinical implications: a literature review. , 2017, Brazilian oral research.

[23]  C. Bowman,et al.  Application of an Addition-Fragmentation-Chain Transfer Monomer in Di(meth)acrylate Network Formation to Reduce Polymerization Shrinkage Stress. , 2017, Polymer chemistry.

[24]  R. Hickel,et al.  Influence of extremely high irradiances on the micromechanical properties of a nano hybrid resin based composite. , 2017, American journal of dentistry.

[25]  J. Mercer,et al.  Light-curing units used in dentistry: factors associated with heat development—potential risk for patients , 2016, Clinical Oral Investigations.

[26]  Ji-Yun Hwang,et al.  Real-Time Analysis of Temperature Changes in Composite Increments and Pulp Chamber during Photopolymerization , 2015, BioMed research international.

[27]  D. Watts,et al.  Polymerization kinetics and impact of post polymerization on the Degree of Conversion of bulk-fill resin-composite at clinically relevant depth. , 2015, Dental materials : official publication of the Academy of Dental Materials.

[28]  Ji-Yun Hwang,et al.  Comparison of photopolymerization temperature increases in internal and external positions of composite and tooth cavities in real time: Incremental fillings of microhybrid composite vs. bulk filling of bulk fill composite. , 2015, Journal of dentistry.

[29]  F. Rueggeberg,et al.  In vivo temperature rise in anesthetized human pulp during exposure to a polywave LED light curing unit. , 2015, Dental materials : official publication of the Academy of Dental Materials.

[30]  T. Fey,et al.  Bulk-fill resin composites: polymerization properties and extended light curing. , 2015, Dental materials : official publication of the Academy of Dental Materials.

[31]  D. Watts,et al.  The effect of ultra-fast photopolymerisation of experimental composites on shrinkage stress, network formation and pulpal temperature rise. , 2014, Dental materials : official publication of the Academy of Dental Materials.

[32]  N. Moszner,et al.  β-Allyl Sulfones as Addition–Fragmentation Chain Transfer Reagents: A Tool for Adjusting Thermal and Mechanical Properties of Dimethacrylate Networks , 2014 .

[33]  S. Heintze,et al.  Influence of cavity preparation, light-curing units, and composite filling on intrapulpal temperature increase in an in vitro tooth model. , 2014, Operative dentistry.

[34]  W. Oh,et al.  Thermal analysis of bulk filled composite resin polymerization using various light curing modes according to the curing depth and approximation to the cavity wall. , 2013, Journal of applied oral science : revista FOB.

[35]  J. Ferracane Resin-based composite performance: are there some things we can't predict? , 2013, Dental materials : official publication of the Academy of Dental Materials.

[36]  D. Watts,et al.  Simultaneous determination of polymerization shrinkage, exotherm and thermal expansion coefficient for dental resin-composites. , 2012, Dental materials : official publication of the Academy of Dental Materials.

[37]  Jack L Ferracane,et al.  Resin composite--state of the art. , 2011, Dental materials : official publication of the Academy of Dental Materials.

[38]  F. Rueggeberg,et al.  In vivo temperature measurement: tooth preparation and restoration with preheated resin composite. , 2010, Journal of esthetic and restorative dentistry : official publication of the American Academy of Esthetic Dentistry ... [et al.].

[39]  Feng Xu,et al.  A review of heat transfer in human tooth--experimental characterization and mathematical modeling. , 2010, Dental materials : official publication of the Academy of Dental Materials.

[40]  U. Lohbauer,et al.  The effect of resin composite pre-heating on monomer conversion and polymerization shrinkage. , 2009, Dental materials : official publication of the Academy of Dental Materials.

[41]  C. Gogos,et al.  Effect of simulated pulpal microcirculation on intrapulpal temperature changes following application of heat on tooth surfaces. , 2009, International endodontic journal.

[42]  D. Watts,et al.  In vitro pulp chamber temperature rise from irradiation and exotherm of flowable composites. , 2009, International journal of paediatric dentistry.

[43]  F. Rueggeberg,et al.  Effect of composite temperature on in vitro intrapulpal temperature rise. , 2007, Dental materials : official publication of the Academy of Dental Materials.

[44]  D. Watts,et al.  Synthesis, characterization, shrinkage and curing kinetics of a new low-shrinkage urethane dimethacrylate monomer for dental applications. , 2007, Dental materials : official publication of the Academy of Dental Materials.

[45]  P. Biagioni,et al.  Effect of composite shade, increment thickness and curing light on temperature rise during photocuring. , 2007, Journal of dentistry.

[46]  F. Rueggeberg,et al.  Clinically relevant issues related to preheating composites. , 2006, Journal of esthetic and restorative dentistry : official publication of the American Academy of Esthetic Dentistry ... [et al.].

[47]  D. Watts,et al.  A new kinetic model for the photopolymerization shrinkage-strain of dental composites and resin-monomers. , 2006, Dental materials : official publication of the Academy of Dental Materials.

[48]  M. Sjödahl,et al.  How filler properties, filler fraction, sample thickness and light source affect light attenuation in particulate filled resin composites. , 2005, Dental materials : official publication of the Academy of Dental Materials.

[49]  P. Biagioni,et al.  Thermographic investigation of contemporary resin-containing dental materials. , 2005, Journal of dentistry.

[50]  J. Stansbury,et al.  Conversion-dependent shrinkage stress and strain in dental resins and composites. , 2005, Dental materials : official publication of the Academy of Dental Materials.

[51]  D. Achilias,et al.  Thermal expansion characteristics of light-cured dental resins and resin composites. , 2004, Biomaterials.

[52]  B. Lim,et al.  Reduction of polymerization contraction stress for dental composites by two-step light-activation. , 2002, Dental materials : official publication of the Academy of Dental Materials.

[53]  E Harrington,et al.  Temperature rise during polymerization of light-activated resin composites. , 1998, Journal of oral rehabilitation.

[54]  R. Scotti,et al.  Clinical and histological evaluation of thermal injury thresholds in human teeth: a preliminary study. , 1997, Journal of oral rehabilitation.

[55]  A. Versluis,et al.  Thermal expansion coefficient of dental composites measured with strain gauges. , 1996, Dental materials : official publication of the Academy of Dental Materials.

[56]  D. Watts,et al.  Thermal Diffusivity of Composite Restorative Materials , 1987, Journal of dental research.

[57]  L ZACH,et al.  PULP RESPONSE TO EXTERNALLY APPLIED HEAT. , 1965, Oral surgery, oral medicine, and oral pathology.