Abstract
Problems evolving from the brittleness of structural glass result in need of innovative solutions which will improve the post-breakage behaviour of the elements in the structure. As the need of the glass performance gets higher, the fully tempered glass gets in the focus and its usage becomes greater. But although this type of glass gives great performance with its tensile strength and deflection capaciy, it has no residual strength. Due to its breakage pattern into small pieces the collapse of the element may be instant even in laminated glass elements. Thus, increasing the post breakage behaviour is crucial in order to keep the integrity of the tempered glass element. This can be done either by changing the interlayer properties, or including kind of reinforcement in the element structure. This paper presents experimental testing of the performances of steel plate reinforced hybrid glass element under four point bending test. As a result, it shows the improvement in mechanical behaviour of the described hybrid structure concept compared to a monolithic glass element with same dimensions, by means of stress distribution and reinforcement capacity.
Highlights
Glass elements become part of the structures when the first glass production line has been established
Its main disadvantage of being extremely brittle material is partly solved by laminating in two or more plies of glass. This process is used for achieving required structural thickness and residual strength after breakage of one or more laminates
With laminating, glass gets ductility which is governed by the interlayer material [01,09]
Summary
Glass elements become part of the structures when the first glass production line has been established. Its main disadvantage of being extremely brittle material is partly solved by laminating in two or more plies of glass. This process is used for achieving required structural thickness and residual strength after breakage of one or more laminates. Fully tempered glass has almost no residual strength even if used in laminated glass units. This is due to its fracture pattern, the breaking up into small fragments and the low stiffness and strength of the interlayer materials currently used in laminating. In order to achieve high residual strength i.e. post breakage capacity, interlayer has to possess high tensile strength, high extensional stiffness, high elongation at rupture and good adhesion [04]
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