AnatomiaMalattieSostanze chimiche e FarmaciTecniche ed apparecchiature analitiche, diagnostiche e terapeuticheScienze biologicheTecnologia, Industria, Agricoltura
ElastomeriElastomeri Del SiliconeDecanoatiDimetilpolisilossaniProtesi Maxillo-FaccialiSiliconiPoliuretaniSolubilità Dello Smalto DentaleMateriali BiocompatibiliTest Per MaterialiImpianti SperimentaliResine SinteticheResistenza Alla TrazioneMicroradiografiaPoliesteriReazione A Corpi EstraneiCristalli LiquidiPolimeriTessuto SottocutaneoApparecchi OrtodonticiMateriali TessiliAgenti CariostaticiAcrilonitrileDemineralizzazione Del DenteCicloparaffineUretanoDispositivi Contraccettivi FemminiliMechanical PhenomenaIsocianatiMateriali BiomimeticiProprietà SuperficialiMagnetsFluoruriNylonMicroanalisi A Sonda ElettronicaCaproati

Measurement of discolouration of orthodontic elastomeric modules with a digital camera. (65/162)

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Behavior under impact of two polyvinyl acetate-polyethylene (PVA-PE) polymers and one elastomer--application to custom-made mouthguards. (66/162)

A drop tower was used to identify the mechanical behaviors of two polyvinyl acetate-polyethylene (PVA-PE) polymers and one elastomer used to fabricate custom-made mouthguards. The samples were in the form of either small cubes (edge length: 20 mm) or large cubes (edge length: 30 mm). Force and strain were recorded as functions of time, enabling a stress-strain analysis to be performed. In addition, a volume energy analysis was performed. While the three materials were viscoelastic, the stress-strain analysis showed that the PVA-PE polymers were more rigid than the elastomer, i.e., the same stress was reached with a lower strain. With the volume energy analysis, the two PVA-PE polymers were found to absorb a relatively large amount of energy with small sample deformations. Results of this study suggested that the mechanical properties of PVA-PE polymers are particularly useful and relevant for the fabrication of custom-made mouthguards.  (+info)

A bilayered elastomeric scaffold for tissue engineering of small diameter vascular grafts. (67/162)

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Scale-dependent fiber kinematics of elastomeric electrospun scaffolds for soft tissue engineering. (68/162)

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Acute degradation of surface-bound unsaturated polyolefins in common solvents under ambient conditions. (69/162)

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In vitro evaluation of the frictional forces between brackets and archwire with three passive self-ligating brackets. (70/162)

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The development of 3-D, in vitro, endothelial culture models for the study of coronary artery disease. (71/162)

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In vivo assessment of a tissue-engineered vascular graft combining a biodegradable elastomeric scaffold and muscle-derived stem cells in a rat model. (72/162)

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