Numerical Analysis of Torsional Reinforcement of Concrete Beams in Unconventional by ANSYS Software

Mohammed, Thaer Jasim; Breesem, Khalid Mohammed; Hussein, Abeer F.

doi:10.28991/cej-2023-09-01-04

Cited by 3 publications

(1 citation statement)

References 25 publications

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“…[8] Informasi yang diperlukan untuk pelatihan, validasi, dan pengujian model yang dikembangkan diperoleh dari database yang andal. [9]…”

Section: Pendahuluanunclassified

Efektifitas Pola Torsi Pada Struktur Rangka Balok Kastela Dengan Menggunakan Etabs

Aswad,

Zainal,

Masdiana

2023

stabilita

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ABSTRAK Baja memiliki keunggulan karena dapat menyesuaikan bentuk dalam sebuah perancangan dan mempercepat waktu konstruksi. Salah satunya adalah balok kastela yang terbuat dari baja. Namun, karena ukuran penampangnya yang tipis, mereka rentan terhadap deformasi dan ketidakstabilan yang terjadi pada balok yang sering disebut efek torsi. Penelitian ini bertujuan mencari bentang efektif torsi pada balok kastela 225 x 75 x 7 x 8 akibat beban gempa statis dengan mengevaluasi beberapa bentang 3.1 – 3.5-meter menggunakan software etabs v.20. Dari hasil analisis struktur efek torsi pada bentang balok sumbu x dapat untuk bentang efektif balok kastela terhadap torsi akibat beban gempa adalah pada bentang 3.3 m dengan torsi untuk gempa statis sumbu x sebesar 8 Nm dan gempa statis sumbu y sebesar 2.7 Nm. Efektifitas torsi pada bentang balok sumbu y pada balok kastela terhadap torsi akibat beban gempa adalah pada bentang 3.3 m dengan torsi untuk gempa statis sumbu x dengan nilai 5.6 Nm dan gempa statis sumbu y 4.1 Nm. Kata Kunci: Software etabs, torsi, analisis struktur ABSTRACT The use of steel material offers benefits in terms of accelerating construction time and adapting the shape of steel beams to meet design requirements. One of them is a steel beam with battlements. However, because to the narrow nature of steel beams, there is a possibility of instability in the form of deformation occurring outside the loading plane. This type of deformation is commonly referred to as torsion in beams. The objective of this study is to determine the optimal torsion span in castella beams with dimensions of 225 x 75 x 7 x 8 under the influence of a static seismic load. The span range being considered is 3.1m to 3.5m. The analysis will be conducted using Etabs v.20 software. The torsion on the x-axis beam span is evident from the results of the structural analysis conducted using ETABS v.20 software. The castella beam has an effective span of 3.3 m for resisting torsion caused by earthquake stresses. It can withstand a torsion of 8 Nm for x-axis static earthquakes and y-axis static earthquakes. The value is 2.7 Newton meters (Nm). The torsional force acting on the y-axis beam span. The castella beam has an effective span of 3.3 m for resisting torsion caused by earthquake stresses. It can withstand a torsion of 5.6 Nm along the x-axis and 4.1 Nm along the y-axis for static earthquakes. Keywords: Etabs software, torsion, structural analysis

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“…[8] Informasi yang diperlukan untuk pelatihan, validasi, dan pengujian model yang dikembangkan diperoleh dari database yang andal. [9]…”

Section: Pendahuluanunclassified

Efektifitas Pola Torsi Pada Struktur Rangka Balok Kastela Dengan Menggunakan Etabs

Aswad,

Zainal,

Masdiana

2023

stabilita

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Modeling and Analysis of Reinforced Concrete Beam Using ANSYS Software

Krasnitskyi,

Lobodanov,

Vegera

et al. 2024

Lecture Notes in Civil Engineering

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Nonlinear Modeling and Analysis of Damaged Reinforced Concrete Beams Using Ansys and Lira-Sapr Software Packages

Krasnitskyi,

Lobodanov

2024

Theory build. pract.

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This article presents a comparative analysis of the nonlinear behavior of a reinforced concrete beam with damaged reinforcement in the tension zone under a gradually increasing load until failure. The experimental beam, measuring 2100 mm × 200 mm × 100 mm, consists of a 20 mm diameter rebar in the tension zone, two 6 mm diameter rebars in the compression zone, and 6 mm diameter stirrups spaced 75 mm apart for transverse reinforcement. Nonlinear calculations were performed using ANSYS and LIRA-SAPR, with identical initial conditions applied to both models for accurate comparison. The study focuses on key aspects such as result accuracy, ease of use, and time required for nonlinear calculations, including material and geometric nonlinearity. By highlighting the strengths and weaknesses of each software, the research offers insights for engineers and researchers working on complex structural modeling of reinforced concrete.

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Numerical Analysis of Torsional Reinforcement of Concrete Beams in Unconventional by ANSYS Software

Cited by 3 publications

References 25 publications

Efektifitas Pola Torsi Pada Struktur Rangka Balok Kastela Dengan Menggunakan Etabs

Efektifitas Pola Torsi Pada Struktur Rangka Balok Kastela Dengan Menggunakan Etabs

Modeling and Analysis of Reinforced Concrete Beam Using ANSYS Software

Nonlinear Modeling and Analysis of Damaged Reinforced Concrete Beams Using Ansys and Lira-Sapr Software Packages

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