Sonam Dorji scite author profile

Masonry construction is popular around the world, but the use of mortared masonry presents numerous challenges. In recent decades, masonry construction systems incorporating interlocking masonry units have been proposed to eliminate mortar. The interlocking between masonry units can be achieved using specially shaped units. This paper presents a comprehensive experimental study to determine the behaviour as well as basic material properties of one such semi-interlocking mortarless masonry. The experiments included testings of ungrouted masonry units, prisms, and wallets. In addition, masonry prisms and wallets with grouted cores were also investigated to study the effect of grouting. A detailed description of the construction procedure is explained. The failure mechanisms, maximum strengths, force–displacement relationships, and modulus of elasticity of the samples are obtained and contrasted with the relevant results from the literature. Finally, recommendations are made that may assist material model development required for micro- and macro-modelling of mortarless masonry. The new information generated in this research will enable better understanding of the behaviour and properties of semi-interlocking mortarless masonry and will be useful for validating numerical models in future research.

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Experimental investigation of semi-interlocking mortarless masonry-infilled frames

Dorji

Derakhshan

Thambiratnam

2022

Structures

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Seismic Design of Masonry-Infilled Frames: A Review of Codified Approaches

Dorji¹,

Derakhshan²,

Zahra³

et al. 2020

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This paper reviews the approach of eleven national codes on the analysis and design of masonry-infilled frames. It is shown that, in general, codes can be divided into two groups. The first group isolates the masonry and frame members by providing gaps to minimize the interaction between them. This method ensures that the complexities involved in analyzing the structure is avoided. However, the width of the gaps recommended is different for each of the codes. The second group takes advantage of the presence of high stiffness and strength masonry infill. In this technique, an equivalent-strut modeling strategy is mostly recommended. It is shown that the strut model suggested in each of the codes is different. An attempt to obtain a generic model for masonry-infilled frame failed largely due to the existence of many behavior-influencing parameters. Finally, it is suggested to have a paradigm shift in the modeling strategy where the masonry-infilled frames are classified into different categories and a model is suggested for each of them.

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Material Property Investigation for Semi-Interlocking Mortarless Masonry

2022

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Sonam Dorji

Inherent limitations and alternative to conventional equivalent strut models for masonry infill-frames

Behaviour and material properties of versaloc semi-interlocking mortarless masonry

Experimental investigation of semi-interlocking mortarless masonry-infilled frames

Seismic Design of Masonry-Infilled Frames: A Review of Codified Approaches

Material Property Investigation for Semi-Interlocking Mortarless Masonry

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