Closed form solutions for the long-term analysis of composite steel-concrete members subjected to non-uniform shrinkage distributions : advances in steel structures progress

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Ranzi, G and Vrcelj, Zora (2010) Closed form solutions for the long-term analysis of composite steel-concrete members subjected to non-uniform shrinkage distributions : advances in steel structures progress. In: Advances in Steel Structures : Progress in Structural Stability and Dynamics : ICASS '09 / IJSSD : Proceedings of Sixth International Conference on Advances in Steel Structures and Progress in Structural Stability and Dynamics. Chan, S. L, ed. Hong Kong Institute of Steel Construction, Hong Kong, pp. 552-559.

Abstract

This paper presents analytical solutions for the long-term analysis of composite steel-concrete members considering different shrinkage profiles through the cross-section of the slab. This situation is particularly important for members in the presence of steel deck. In fact, the non-uniform shrinkage profile develops through the slab thickness because of the lack of moisture egress on its bottom side due to the presence of the sheeting. In practice the main advantage of composite flooring systems relies on the ability of the profiled sheeting to act as permanent form work and, once the concrete has hardened, as external reinforcement. The weak form of the partial interaction problem is derived by means of the principle of virtual work and is integrated by parts to produce the local balance condition. The long-term behaviour of the concrete is modeled by means of the simplified methods while the remaining materials are assumed to remain linear-elastic. The general solution is then applied to the particular cases of sim ply supported and propped cantilever for which closed form solutions are presented. --Conference held: , Hong Kong, 16-18 December 2009

Item type Book Section
URI https://vuir.vu.edu.au/id/eprint/22339
Official URL http://www.hkisc.org/bulletin/icass09_full.pdf
ISBN 9789889914059
Subjects Historical > FOR Classification > 0905 Civil Engineering
Current > Division/Research > College of Science and Engineering
Keywords composite action, composite members, partial interaction, shrinkage, time effects, formulations, composite beams, floors, decks
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