Your search keyword '"Masonry column"' showing total 2 results

1. Axial performance of grouted C-Shaped concrete block masonry columns jacketed by carbon and glass FRP.

Author

Alotaibi, Khalid Saqer, Saiful Islam, A.B.M., and Galal, Khaled

Subjects

*CONCRETE masonry, *CONCRETE blocks, *STRAINS & stresses (Mechanics), *COMPRESSION loads, *COLUMNS, *CONCRETE columns

Abstract

• Scaled C-shaped concrete blocks masonry confined with CFRP and GFRP jackets tested under concentric compressive load. • The results for different numbers of layers and FRP materials with three replicas for each combination. • The predictions of Eight theoretical models were compared with experimental tests. To overcome the relatively low ductility and capacity of masonry elements, the confinement technique may be an effective alternative for improving their performance, especially the columns. Fiber Reinforced Polymers (FRP) jacketing is a potential approach has benefits in terms of strength enhancement and gaining ductile behavior. Therefore, in this study, two types of FRP were used to improve column axial capacity and ductility: carbon and glass FRP. The effect of FRP wrapping on the compressive behavior of concrete masonry columns was investigated experimentally. Fully grouted scaled masonry columns constructed using C-shaped concrete blocks were wrapped with FRP jackets and tested under concentric compressive load until failure. For this purpose, 18 half-scale masonry prisms under variations in FRP jacketing and FRP thickness were developed and tested in six sets. The effect of FRP confinement on the unconfined masonry columns was evaluated. The CFRP and GFRP jacketing increased the peak strength and ultimate axial strain. Confinement improves post-peak performance by softening the descending stress–strain relationships. Increasing FRP jacket thickness improved the axial strain, strength, and ductility of masonry columns. The CFRP wrap gives 10 ∼ 16% more strength than GFRP. Ultimate strain enhanced by 76 % and 57 % for CFRP and GFRP respectively. [ABSTRACT FROM AUTHOR]

Published

2022

2. Masonry Columns Confined by Steel Fiber Composite Wraps.

Author

Borri, Antonio, Castori, Giulio, and Corradi, Marco

Subjects

*MASONRY, *POLYMERS, *VOLUMETRIC analysis, *MONOTONIC functions, *COMPARATIVE studies

Abstract

The application of steel fiber reinforced polymer (SRP) as a means of increasing the capacity of masonry columns is investigated in this study. The behavior of 23 solid-brick specimens that are externally wrapped by SRP sheets in low volumetric ratios is presented. The specimens are subjected to axial monotonic load until failure occurs. Two widely used types of masonry columns of differing square cross-sections were tested in compression (square and octagonal cross-sections). It is concluded that SRP-confined masonry behaves very much like fiber reinforced polymers (FRP)-confined masonry. Confinement increases both the load-carrying capacity and the deformability of masonry almost linearly with average confining stress. A comparative analysis between experimental and theoretical values computed in compliance with the Italian Council of Research (CNR) was also developed. [ABSTRACT FROM AUTHOR]

Published

2011