About: Flexural strength and modulus of nanofilled and low-shrinkage dental restorative composites: Three-point bending test.     Goto   Sponge   NotDistinct   Permalink

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  • Most common failure of dental composite filler was caused by restoration fracture and secondary caries. The reasons of failure under occlusal load were attributed to the high stress at the toothrestoration interface. The cavity shape could influence the magnitude of the interfacial stress. Using finite element program cavity design could be solved through the cavity shape optimization analysis that required exact material properties. In this study, flexural strength and flexural modulus of two composites (FiltekTM Silorane and FiltekTM Superme XT) were determined by three-point bending test.
  • Most common failure of dental composite filler was caused by restoration fracture and secondary caries. The reasons of failure under occlusal load were attributed to the high stress at the toothrestoration interface. The cavity shape could influence the magnitude of the interfacial stress. Using finite element program cavity design could be solved through the cavity shape optimization analysis that required exact material properties. In this study, flexural strength and flexural modulus of two composites (FiltekTM Silorane and FiltekTM Superme XT) were determined by three-point bending test. (en)
Title
  • Flexural strength and modulus of nanofilled and low-shrinkage dental restorative composites: Three-point bending test.
  • Flexural strength and modulus of nanofilled and low-shrinkage dental restorative composites: Three-point bending test. (en)
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  • Flexural strength and modulus of nanofilled and low-shrinkage dental restorative composites: Three-point bending test.
  • Flexural strength and modulus of nanofilled and low-shrinkage dental restorative composites: Three-point bending test. (en)
skos:notation
  • RIV/68407700:21220/09:00158402!RIV10-MSM-21220___
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  • Z(MSM6840770012)
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  • 315220
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  • RIV/68407700:21220/09:00158402
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  • dental composites; three-point bending test; flexural modulus (en)
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  • [2EAAF5AC1365]
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  • Praha
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  • Praha
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  • 10th Workshop on Applied Mechanics Proceeding
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  • Sedláček, Radek
  • Eichlerová, Renata
  • Konvičková, Svatava
  • Vrbová, Radka
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  • Department of Mechanics, Biomechanics and Mechatronics; Faculty of Mechanical Engineering; CTU in Prague
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  • 978-80-01-04332-5
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  • 21220
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