The FRP reinforced shear-friction mechanism

Lucas, W.; Oehlers, D.; Mohamed Sadakkathulla, M.; Griffith, M.

Please use this identifier to cite or link to this item: https://hdl.handle.net/2440/73192

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Type:	Journal article
Title:	The FRP reinforced shear-friction mechanism
Author:	Lucas, W. Oehlers, D. Mohamed Sadakkathulla, M. Griffith, M.
Citation:	Advances in Structural Engineering: an international journal, 2012; 15(4):615-623
Publisher:	Multi-science Publishing Co. Ltd.
Issue Date:	2012
ISSN:	1369-4332 2048-4011
Statement of Responsibility:	Wade Lucas, Deric J. Oehlers, M.S. Mohamed Ali and Michael C. Griffith
Abstract:	The ability of reinforced concrete to resist shear forces across possible sliding planes is a well established area of research and is also recognised as an important aspect of the ability of reinforced concrete members to both resist loads and deformation. This characteristic of reinforced concrete is often referred to as the shear-friction or aggregate interlock mechanism and much of the previous research in this area has dealt with ductile steel reinforcement, which is assumed to yield prior to the shear-friction capacity being attained. In this paper, it is shown that, as FRP is an elastic material, the shear friction behaviour of FRP reinforced concrete is different to that with ductile steel reinforcement. However, and perhaps surprisingly, the shear-friction capacity of FRP reinforced concrete can be just as ductile and strong as steel reinforced concrete.
Keywords:	FRP shear-friction aggregate interlock reinforced concrete shear capacity shear deformation
Rights:	Copyright status unknown
DOI:	10.1260/1369-4332.15.4.615
Published version:	http://dx.doi.org/10.1260/1369-4332.15.4.615
Appears in Collections:	Aurora harvest Civil and Environmental Engineering publications

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