An Efficient Model for the Coupling Beam Using Damping Devices in Coupled Shear Wall Structures under Earthquake Loads

Pham, Tri-Cong; Nguyen, Hai-Quang; Nguyen, Tien-Chuong; Nguyen, Anh‐Dung

doi:10.3390/buildings13040941

Buildings

2023

DOI: 10.3390/buildings13040941

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An Efficient Model for the Coupling Beam Using Damping Devices in Coupled Shear Wall Structures under Earthquake Loads

Tri-Cong Pham

Hai-Quang Nguyen

Tien-Chuong Nguyen³

et al.

Abstract: This paper proposes a new element for modeling the energy-dissipation coupling beam to analyze the coupled shear wall structure under seismic loading. The new beam element includes 2 rigid beams and an energy dissipation device in the middle. The element stiffness matrix is derived based on principles of nonlinear mechanics. A procedure of the incremental-iterative solution is built using the Newmark method and adopted for solving the nonlinear equation of motion. A computer program using Matlab is developed t… Show more

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2023

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Cited by 1 publication

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Study of the Seismic Behavior of Diagonally Reinforced Concrete Coupling Beam with Compared to Composite Beam

Takale,

Taware

2023

Preprint

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Most of the reinforced concrete RC Shear walls have openings have openings due to door, window and transport facilities, which are connected with coupling beam. It is essential to examine the seismic performance of structural elements to guarantee the dependability and safety of structures during earthquakes. In order to increase the overall stiffness and strength of the structural system, coupling beams are essential for transferring lateral forces across structural components. These abstract details an ANSYS-based investigation on the seismic behavior of coupling beams. Comprehensive modeling and analysis of complicated structural systems susceptible to seismic loading is made possible using ANSYS software, a potent finite element analysis tool. In this work, ANSYS is used to create a three-dimensional finite element model of a building with coupling beams. To effectively simulate the structural response to seismic excitation, the model includes realistic material properties, geometry, and boundary conditions. A number of dynamic evaluations are performed to evaluate the coupling beams' seismic response. To comprehend the coupling beams' performance under earthquake loading, evaluation is done of their reactions, including their deformation patterns, stresses. The beam with diagonally reinforcement having maximum deformation of 0.098 mm, where the deflection of conventional beam with steel plate having maximum deformation of 0.1 mm. The percentage difference of maximum deformation is 2%. The conventional beam with steel plate having maximum shear stress of 7.64 MPa, where the deflection of beam with diagonally reinforcement having maximum deformation of 8.5 MPa. As per results, the conventional beam with steel plate gets less shear stress as compare to diagonally reinforcement beam. The percentage difference of maximum shear stress is 10.11%.

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Study of the Seismic Behavior of Diagonally Reinforced Concrete Coupling Beam with Compared to Composite Beam

Takale,

Taware

2023

Preprint

View full text Add to dashboard Cite

show abstract

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An Efficient Model for the Coupling Beam Using Damping Devices in Coupled Shear Wall Structures under Earthquake Loads

Cited by 1 publication

References 28 publications

Study of the Seismic Behavior of Diagonally Reinforced Concrete Coupling Beam with Compared to Composite Beam

Study of the Seismic Behavior of Diagonally Reinforced Concrete Coupling Beam with Compared to Composite Beam

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