Adhesive bonding of fibre reinforced polymer (FRP) and steel plates to the surfaces of reinforced concrete structures is an efficient form of retrofitting, as the plated structure is mechanically efficient, the plate is unobtrusive, and—for FRP plates—the plate is durable and the application is inexpensive owing to the lightness and flexibility of the pultruded or wet lay-up plate. In this paper it is shown: from a comparison of the main FRP plating guidelines, that there is now a general agreement on the major plate debonding mechanisms; that current rules in national standards for the shear capacity of prestressed beams can be used to quantify a major plate debonding mechanism due to beam shear deformations, that is critical diagonal crack (CDC) debonding; and that these developments allow a simple design approach to be used for FRP and steel plated beams and slabs with longitudinal plates.
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February 2005
Research Article|
February 01 2005
Shear deformation debonding of adhesively bonded plates Available to Purchase
D. J. Oehlers, PhD, MSc, MIEAust;
D. J. Oehlers, PhD, MSc, MIEAust
Associate Professor
Adelaide University
Australia
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I. S. T. Liu, BSc;
I. S. T. Liu, BSc
Postgraduate student
Adelaide University
Australia
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R. Seracino, PhD, MASc, MIEAust
R. Seracino, PhD, MASc, MIEAust
Senior Lecturer
Adelaide University
Australia
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Publisher: Emerald Publishing
Received:
December 02 2003
Accepted:
May 25 2004
Online ISSN: 1751-7702
Print ISSN: 0965-0911
© 2005 Thomas Telford Ltd
2005
Proceedings of the Institution of Civil Engineers - Structures and Buildings (2005) 158 (1): 77–84.
Article history
Received:
December 02 2003
Accepted:
May 25 2004
Citation
Oehlers DJ, Liu IST, Seracino R (2005), "Shear deformation debonding of adhesively bonded plates". Proceedings of the Institution of Civil Engineers - Structures and Buildings, Vol. 158 No. 1 pp. 77–84, doi: https://doi.org/10.1680/stbu.2005.158.1.77
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