A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Analysis of brick masonry walls strengthened with fibre reinforced polymers and subjected to eccentric compressive loads
Highlights Experimental tests on real-scale FRP–strengthened brick masonry walls. Experimental strain analysis of the effectiveness of FRP. Implementing a numerical model to calculate the load-bearing capacity. Developing an analytical approach to calculate FPR–strengthened masonry.
Abstract Fibre Reinforced Polymers laminates are currently used to strengthen brick masonry walls. However, no specific evidences of the structural response of this strengthening system when brick walls are subjected to eccentric compressive loads, which might lead to second order bending effects, have been found. An experimental campaign on real-size walls has been carried out and the results have been compared with a numerical model, which predicted the observed shear/compressive masonry failure, and a new analytical approach, which has been used to accurately calculate the load-bearing capacity of the walls. Useful considerations for the strengthening design are also presented.
Analysis of brick masonry walls strengthened with fibre reinforced polymers and subjected to eccentric compressive loads
Highlights Experimental tests on real-scale FRP–strengthened brick masonry walls. Experimental strain analysis of the effectiveness of FRP. Implementing a numerical model to calculate the load-bearing capacity. Developing an analytical approach to calculate FPR–strengthened masonry.
Abstract Fibre Reinforced Polymers laminates are currently used to strengthen brick masonry walls. However, no specific evidences of the structural response of this strengthening system when brick walls are subjected to eccentric compressive loads, which might lead to second order bending effects, have been found. An experimental campaign on real-size walls has been carried out and the results have been compared with a numerical model, which predicted the observed shear/compressive masonry failure, and a new analytical approach, which has been used to accurately calculate the load-bearing capacity of the walls. Useful considerations for the strengthening design are also presented.
Analysis of brick masonry walls strengthened with fibre reinforced polymers and subjected to eccentric compressive loads
Bernat-Maso, Ernest (author) / Gil, Lluis (author) / Escrig, Christian (author)
Construction and Building Materials ; 84 ; 169-183
2015-02-28
15 pages
Article (Journal)
Electronic Resource
English
FRP , Masonry , FEA , Analytic , Second order