Theoretical and experimental analysis of load-carrying capacity of steel-concrete composite beams with glass-fibre-concrete slab

conference paper

English

The paper deals with the problems of the theoretical and experimental investigation of load-carrying capacity of steel-concrete composite beams with glass-fibre-concrete slab. The paper presents some results of the research oriented to the utilization of high-strength steels and high-performance concretes in steel-concrete composite structural members. This paper is directed towards the theoretical analysis of the bending moment capacity and experimental verification of the actual bending moment capacity of steel-concrete composite beams with glass-fibre-concrete slab in connection with their actual behaviour and corresponding relevant failure mechanism. Within the framework of the bending moment capacity analysis four basic types of beams have been (or will be, respectively) investigated, all of them composed of 3 different steel IPE cross-sections and concrete slab. The attention was paid mainly to the efficiency of the utilization and the effectiveness of the contribution of glass-fibre-concrete.

Composite member, steel-concrete beam, glass-fibre-concrete, load-carrying capacity, resistance, sagging bending moment, experimental verification, theoretical analysis.

KARMAZÍNOVÁ, M.; BUKOVSKÁ, P.; NEUBAUEROVÁ, P.

2012

1. 2. 2012

WSEAS Press

Cambridge, U.K.

978-1-61804-071-8

Proceedings of the 5th WSEAS International Conference on Engineering Mechanics, Structures, Engineering Geology

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