Influence of Masonry Infill on Seismic Design Factors of Reinforced-Concrete Buildings

Shendkar, Mangeshkumar R.; Kontoni, Denise‐Penelope N.; Işık, Ercan; Mandal, Santanu; Maiti, Pabitra Ranjan; Harirchian, Ehsan

doi:10.1155/2022/5521162

Cited by 10 publications

(2 citation statements)

References 31 publications

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“…The response modification factor (R-factor) is one of the most important seismic design factors used in seismic design to reflect the nonlinear behavior of structures. During a major earthquake, the R-factor describes the level of inelasticity in structural systems 59 . Actually, the response modification factor denotes a building's ability to dissipate energy by exhibiting inelastic behavior.…”

Section: Resultsmentioning

confidence: 99%

Nonlinear analysis of reinforced concrete buildings with different heights and floor systems

Abd-Elhamed,

Mahmoud,

Alotaibi

2023

Sci Rep

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Most civil structures exhibit nonlinear behavior during moderate to severe earthquakes. Consequently, inelastic analysis is needed for seismic design. Several dynamic and static analysis methods are available for the assessment and design of engineering structures. Two of the available methods in terms of nonlinear dynamic time history analysis and nonlinear static analysis, which is known as pushover analysis, are employed herein to comprehensively study and investigate the seismic performance of multi-story building structures with different floor systems. Moreover, the study is extended to assess the actual values of the response reduction/modification factor (R-factor) for each building model, then evaluate the values with the code-recommended design values. Three-dimensional finite element building models with 5, 10 and 15 stories are developed for the evaluation process. The advanced computer program ETABS is used for developing and analyzing the buildings considering material and geometrical nonlinearity. A suit of seven earthquake records is considered and scaled according to the ASCE-16 seismic design code to excite the building models. The obtained results evidently reveal that the type of floor slab significantly impacts the seismic response of the building. More specifically, the effects of floor slabs on seismic demands are more evident in low- and mid-rise buildings. In addition, the type of slab system and height of the building have more influence on the response modification factors, especially for low-rise building models.

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Section: Resultsmentioning

confidence: 99%

Nonlinear analysis of reinforced concrete buildings with different heights and floor systems

Abd-Elhamed,

Mahmoud,

Alotaibi

2023

Sci Rep

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“…According to the literature, URM walls transfer interior stresses that develop within structural elements to neighbouring members or foundations [ 1 , 2 ]. Out-of-plane loadings, e.g., those induced by earthquakes and wind, make URM extremely susceptible to being used as a load-bearing component of a structural system due to its low load-carrying capacity and ductility [ 3 , 4 , 5 ].…”

Section: Introductionmentioning

confidence: 99%

Out-of-Plane Behavior of Masonry Prisms Retrofitted with Shape Memory Alloy Stripes: Numerical and Parametric Analysis

Tabrizikahou

Kuczma

Łasecka-Plura

2022

Sensors

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This paper provides a novel Finite Element (FE) simulation to estimate the out-of-plane response of masonry prisms retrofitted with Shape Memory Alloy (SMA) stripes. Empirical data were utilized to develop the computational analysis parameters (mechanical parameters for brick, mortar, and SMA materials) as well as the calibration of the computational FE-based models. For this purpose, a complete micro-modeling approach was applied, assuming perfect contact between mortar joints and brick units. A Concrete Damage Plasticity (CDP) model was developed to define the constitutive relation between brick and mortar. SMA stripes were mortar-installed on the surface of the prisms with a perfect connection. The masonry prism’s verified computational model was utilized to generate parametric research to explore the effect of varying SMA stripe thicknesses and different SMA usage (Ni-Ti or Cu-Zn-Al). The FE study findings indicated that, independent of their material type or thickness, using SMA stripes greatly minimizes brick prism deterioration. SMA stripes greatly decreased residual displacement and plastic strains. Parametric tests, however, revealed that employing Ni-Ti SMA and increasing its thickness is more effective with respect to the masonry prism out-of-plane response than Cu-Zn-Al SMA.

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Response Reduction Factor of Open Ground Storey Reinforced Concrete Buildings with and Without Haunch

Shandilya

Shendkar

Haldar

et al. 2023

Lecture Notes in Civil Engineering

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Influence of Masonry Infill on Seismic Design Factors of Reinforced-Concrete Buildings

Cited by 10 publications

References 31 publications

Nonlinear analysis of reinforced concrete buildings with different heights and floor systems

Nonlinear analysis of reinforced concrete buildings with different heights and floor systems

Out-of-Plane Behavior of Masonry Prisms Retrofitted with Shape Memory Alloy Stripes: Numerical and Parametric Analysis

Response Reduction Factor of Open Ground Storey Reinforced Concrete Buildings with and Without Haunch

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