Search results for "Toughened glass"

showing 4 items of 4 documents

The use of steel angles for the connection of laminated glass beams: Experiments and modelling

2012

Abstract In the present paper the experimental results relative to three-point bending tests on multilayer glass beams and on semi-rigid connections realised with stainless double web angles are presented and discussed. Small and medium size glass beams were tested and load–deflection curves and crack patterns at failure were recorded. The laminated glass specimens, of equal cross-section, were characterised by three different combinations of annealed float and fully thermally tempered glass plies and different interlayers. Steel joints constituted by double web angles to connect two glass beams were tested adopting several geometrical configurations and using stainless steel bolts preloade…

Bearing capacityMaterials scienceStainleConnection (vector bundle)Settore ICAR/10 - Architettura TecnicaToughened glassBuilding and ConstructionBendingPhysics::Classical PhysicsCondensed Matter::Disordered Systems and Neural NetworksFlexural responseSettore ICAR/09 - Tecnica Delle CostruzioniGlass memberBrittlenessFlexural strengthSteel angleMultilayerGlaGeneral Materials ScienceBearing capacityComposite materialLaminated glassCivil and Structural EngineeringStress concentrationConstruction and Building Materials
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RGB photoelasticity applied to the analysis of membrane residual stress in glass

2011

The measurement of residual stresses is of great relevance in the glass industry. The analysis of residual stress in glass is usually made by photoelastic methods because glass is a photoelastic material. This paper considers the determination of membrane residual stresses in glass plates by automatic digital photoelasticity in white light (RGB photoelasticity). The proposed method is applied to the analysis of membrane residual stresses in some tempered glass. The proposed method can effectively replace manual methods based on the use of white light, which are currently provided by some technical standards.

PhotoelasticityMaterials scienceGlass industryApplied MathematicsToughened glassresidual stresses glass RGB photoelasticity image processingSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineMembraneResidual stressWhite lightRGB color modelComposite materialSettore ING-IND/15 - Disegno E Metodi Dell'Ingegneria IndustrialeInstrumentationEngineering (miscellaneous)Measurement Science and Technology
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Photoelastic Analysis of Edge Residual Stresses in Glass by the Automated Tint Plate Method

2013

The analysis of residual stress in glass is usually carried out by means of photoelastic methods. This article considers the automation of the white light photoelastic method based on the use of a full-wave plate placed behind the glass plate. In particular, the method in based on the use of RGB photoelasticity in white light in conjunction with a full wave plate. The proposed method have been applied to the analysis of membrane residual stresses in tempered glass, showing that it can effectively replace manual methods of photoelastic analysis of residual stresses in glass when a low photoelastic retardation is present.

PhotoelasticityPlate methodMaterials sciencebusiness.industryGlass Residual Stresses RGB Photoelasticity Tint PlateMechanical EngineeringToughened glassEdge (geometry)Settore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineOpticsFull waveMechanics of MaterialsResidual stressWhite lightSettore ING-IND/15 - Disegno E Metodi Dell'Ingegneria IndustrialebusinessExperimental Techniques
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Glass physics: still not transparent

1999

Glass is a commonplace word. One immediately thinks of windows or bottles and of properties like brittleness or transparency. However, for a glass blower another feature is more important: glass does not melt abruptly, as a crystal does, but gradually over a range of temperatures. This means that he or she can alter the temperature at which glass solidifies or becomes a liquid by changing the rate at which it is cooled or heated. This is in stark contrast to the behaviour observed when the crystalline form of a material is heated: it will always melt at the same temperature.

PhysicsCrystalGlass blowerRange (particle radiation)BrittlenessGeneral Physics and AstronomyToughened glassTransparency (human–computer interaction)Composite materialPhysics World
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