Effect of stiffeners in lateral stiffness of masonry infill reinforced concrete (RC) frames

Kawan, Chandra Kiran

doi:10.3126/jsce.v3i0.22383

Cited by 2 publications

(1 citation statement)

References 4 publications

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“… Building structures' with more rigidity [48]  Natural vibrational amplitudes and frequencies  The capability to dissipate energy [49]  The failure mechanism and brittle behaviour. Common infill masonry panels have the potential to significantly alter the overall behaviour of a structure by drawing forces to areas that were not intended to support them, resulting in unexpected collapse mechanisms.…”

Section: Masonry Panels' Effects On a Building's Performancementioning

confidence: 99%

A Review on Infilled frame Structure with respective of various Interface Materials

Dhinakaran

Muthukumar

2023

E3S Web Conf.

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During major earthquakes, existing buildings have collapsed or suffered serious damage, resulting in number of losses, severe injuries, and deaths. Based on literature, the influence of this work reviewed the effects of interface with different materials and also to find how infilled frames behave in framed structure. This study's primary goal is to strengthen RC-framed structures and increase the ductility of infilled frames by using interface materials. The research offers a full range and points relevant to ductile parameters for more results in the field of infilled frames using interface materials. In parametric investigation the interface material with interface thickness and the combination of interface material with a particular frame, from that optimum value to be identified. This research benefits researchers, professionals, and specialists the behaviour of various structural systems, as well as innovative mitigation techniques that have been used in the literature to build progressive collapse resistance experimentally.

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Section: Masonry Panels' Effects On a Building's Performancementioning

confidence: 99%

A Review on Infilled frame Structure with respective of various Interface Materials

Dhinakaran

Muthukumar

2023

E3S Web Conf.

View full text Add to dashboard Cite

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Mechanical, electrochemical and structural characteristics of friction stir spot welds of aluminium alloy 6063

et al. 2020

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The work presents the friction stir spot welding (FSSW) of AA6063. The evolving properties due to the influence of process parameters and the efficacy of metallurgical, structural, mechanical, and electrochemical integrities were studied. FSSW was conducted on 2mm thickness by varying the rotational speed of 600, 900 and 1200 rpm and the dwell time at 10 and 15 s. The evolving microstructures, hardness, corrosion, shear tensile behaviours and X-ray diffraction characteristics of the as-received material and the welds were studied. As the tool rotational speed increased at a constant dwell time, a smooth and debris free spot welds were noticed, more HAZ formations became visible and more intermetallic phases of aluminium magnesium (AlMg) were formed although with very low peaks during structural assessment. Furthermore, the hardness values increased up to a certain limit and then decreased, the corrosion properties in artificial seawater (ASW) shown significant improvement on the spot-welded samples and the tensile shear strength was also improved. It would be recommended that spot welds at 900 rpm and 10 and/or 15 s for applications where the hardness is significant imperative and at 1200 rpm with 10 and/or 15 s dwell time where higher tensile shear strength is required and lastly, 1200 rpm at 15 s where corrosion application is significant.

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Effect of stiffeners in lateral stiffness of masonry infill reinforced concrete (RC) frames

Cited by 2 publications

References 4 publications

A Review on Infilled frame Structure with respective of various Interface Materials

A Review on Infilled frame Structure with respective of various Interface Materials

Mechanical, electrochemical and structural characteristics of friction stir spot welds of aluminium alloy 6063

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