000159018 001__ 159018
000159018 005__ 20181203022141.0
000159018 022__ $$a0025-5289
000159018 02470 $$2ISI$$a000274282300017
000159018 037__ $$aARTICLE
000159018 245__ $$aThermal Properties of Nanofilled and Microfilled Restorative Composites
000159018 260__ $$c2009
000159018 269__ $$a2009
000159018 336__ $$aJournal Articles
000159018 520__ $$aThe thermal properties of nanofilled and microfilled restorative composites (Filtek Supreme XT and Filtek Z250) are studied in comparison with the ones of teeth. Our results show slightly decreased values of the thermal constants of Filtek Supreme XT with respect of Filtek Z250, due to the smaller filler particle size. Both analyzed composite materials have the values of the thermal conductivity and diffusivity very close to the one of enamel, with the better fitting in the case of Filtek Supreme XT Comparing with the values for dentin, the thermal conductivity is about two times higher, while the thermal diffusivity is three times higher.
000159018 6531_ $$athermal properties
000159018 6531_ $$athermal conductivity
000159018 6531_ $$arestorative composites
000159018 6531_ $$aEpsilon((Infinity)) Space-Time
000159018 6531_ $$aScale Relativity Theory
000159018 6531_ $$aPlasma Discharge
000159018 6531_ $$aTransport
000159018 6531_ $$aModel
000159018 6531_ $$aPatterns
000159018 6531_ $$aAmalgam
000159018 6531_ $$aSurface
000159018 6531_ $$aPolymer
000159018 6531_ $$aWear
000159018 700__ $$aNica, Irina
000159018 700__ $$aRusu, Valeriu
000159018 700__ $$0244586$$g184703$$aPaun, Maria-Alexandra
000159018 700__ $$aStefanescu, Cipriana
000159018 700__ $$aVizureanu, Petre
000159018 700__ $$aAluculesei, Anca
000159018 773__ $$j46$$tMateriale Plastice$$q431-434
000159018 909C0 $$xU11978$$0252315$$pELAB
000159018 909CO $$pSTI$$particle$$ooai:infoscience.tind.io:159018
000159018 917Z8 $$xWOS-2010-11-30
000159018 917Z8 $$x105540
000159018 937__ $$aEPFL-ARTICLE-159018
000159018 973__ $$rREVIEWED$$sPUBLISHED$$aEPFL
000159018 980__ $$aARTICLE