"P(GD101/08/H068)" . "10.1080/10255842.2013.781158" . "Microstructural residual stress in particle-filled dental composite" . . "2"^^ . . . "[6E23283A4ECA]" . "6"^^ . . "Mare\u0161, Tom\u00E1\u0161" . . "RIV/68407700:21220/13:00204635" . "88238" . "http://www.tandfonline.com/doi/abs/10.1080/10255842.2013.781158" . . "3"^^ . . "GB - Spojen\u00E9 kr\u00E1lovstv\u00ED Velk\u00E9 Brit\u00E1nie a Severn\u00EDho Irska" . . "\u0160paniel, Miroslav" . . "0" . . "Prejzek, Ond\u0159ej" . . "Microstructural residual stress in particle-filled dental composite" . "Computer Methods in Biomechanics and Biomedical Engineering" . "21220" . . . . . . "1476-8259" . "The main goal of this study is to develop a micromechanical model of a particle-filled dental composite focused on the residual stress (RS) field developed during the curing process in its microstructure. A finite element model of a representative volume element of filler and resin was developed, and volumetric shrinkage was simulated during the curing process. Four material models (von Mises plasticity model, Drucker\u2013Prager plasticity model, von Mises plasticity model with stress relaxation and Drucker\u2013Prager plasticity with stress relaxation) of the polymer resin were built to assess the influence of the material model on the resulting internal stress. The relationship between the curing process and the magnitude of the stress components will be described, and an analysis of the post-curing state of the material in particular microstructure locations will be conducted in this study. Obtained RS is comparable to the stresses developed in the material under the external load. The substantial dependence on the choice of material model for resin is to be observed, and the suitability of particular models is discussed."@en . . "RIV/68407700:21220/13:00204635!RIV14-GA0-21220___" . "Microstructural residual stress in particle-filled dental composite"@en . . "The main goal of this study is to develop a micromechanical model of a particle-filled dental composite focused on the residual stress (RS) field developed during the curing process in its microstructure. A finite element model of a representative volume element of filler and resin was developed, and volumetric shrinkage was simulated during the curing process. Four material models (von Mises plasticity model, Drucker\u2013Prager plasticity model, von Mises plasticity model with stress relaxation and Drucker\u2013Prager plasticity with stress relaxation) of the polymer resin were built to assess the influence of the material model on the resulting internal stress. The relationship between the curing process and the magnitude of the stress components will be described, and an analysis of the post-curing state of the material in particular microstructure locations will be conducted in this study. Obtained RS is comparable to the stresses developed in the material under the external load. The substantial dependence on the choice of material model for resin is to be observed, and the suitability of particular models is discussed." . "dental composite; FE modelling; residual stress; plasticity"@en . "Microstructural residual stress in particle-filled dental composite"@en .