A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Post-tensioned timber structures: New perspectives
HighlightsThe proposed technology allows for the allocation of tendons with any path.The construction process of the GL beam is quality checked as all factory made.Dimensionless formulations for the preliminary design of the prestressed GL beam.
AbstractThe structural behaviour of both glued laminated timber (GL) and laminated veneer lumber (LVL) is well described by the strength effectiveness ratio f/ρ (resistance over unit weight) and the deformation effectiveness ratio E/ρ (elastic modulus over unit weight). They are comparable to those provided by steel, together with the buckling effectiveness ratio E0.5/ρ which is higher than that provided by other structural materials. Current GL and LVL technologies, which give their best in covering wide spans, have probably reached their maximum capabilities and new ideas are growing up in order to improve this field of application. In the present paper, a new technology, which uses post-tensioning of timber beams, based on an Italian patent, is described. The structural behaviour, here analysed, shows a considerable improvement respect to the traditional technology, in terms of both strength and deformation. In particular, after the theoretical considerations that lie at the base of the idea, a case study is presented in which the behaviour of a post tensioned GL main girder of a footbridge is compared with a traditional timber and steel ones. The prestress is applied by means of a set of tendons made of carbon fiber composite cable (CFCC).
Post-tensioned timber structures: New perspectives
HighlightsThe proposed technology allows for the allocation of tendons with any path.The construction process of the GL beam is quality checked as all factory made.Dimensionless formulations for the preliminary design of the prestressed GL beam.
AbstractThe structural behaviour of both glued laminated timber (GL) and laminated veneer lumber (LVL) is well described by the strength effectiveness ratio f/ρ (resistance over unit weight) and the deformation effectiveness ratio E/ρ (elastic modulus over unit weight). They are comparable to those provided by steel, together with the buckling effectiveness ratio E0.5/ρ which is higher than that provided by other structural materials. Current GL and LVL technologies, which give their best in covering wide spans, have probably reached their maximum capabilities and new ideas are growing up in order to improve this field of application. In the present paper, a new technology, which uses post-tensioning of timber beams, based on an Italian patent, is described. The structural behaviour, here analysed, shows a considerable improvement respect to the traditional technology, in terms of both strength and deformation. In particular, after the theoretical considerations that lie at the base of the idea, a case study is presented in which the behaviour of a post tensioned GL main girder of a footbridge is compared with a traditional timber and steel ones. The prestress is applied by means of a set of tendons made of carbon fiber composite cable (CFCC).
Post-tensioned timber structures: New perspectives
D'Aveni, Antonino (author) / D'Agata, Giuseppe (author)
Construction and Building Materials ; 153 ; 216-224
2017-07-03
9 pages
Article (Journal)
Electronic Resource
English
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