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Ananta Sofwan

Kelompok Keahlian Rekayasa Struktur, Program Studi Teknik Sipil, Institut Teknologi Bandung Jl. Ganesa 10 Bandung.

Author-ID : 444902

Civil Engineering, Building, Construction & Architecture Engineering

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The Behavior of Slab-Column Connections with Modified Shear Reinforcement under Cyclic Load Gunadi, Riawan; Budiono, Bambang; Imran, Iswandi; Sofwan, Ananta
Journal of Engineering and Technological Sciences Vol 46, No 1 (2014)
Publisher : ITB Journal Publisher, LPPM ITB

Generally, slab-column frames show lower stiffness, drift capacity, and ductility as compared to beam-column frames. Under combined gravity and lateral cyclic loading, the lower initial stiffness and stiffness degradation lead to poor structural performance. Therefore, in the current codes, slab-column frames are recommended only for Intermediate Moment Frames with dual systems. The objective of this study is to modify slab-column connection details to enhance seismic performance such that the system can also be used with Special Moment Frames. Four specimens of interior slab-column connection models with the same dimensions and flexural reinforcement were tested under gravity and cyclic lateral loads. One specimen, constructed as control specimen, was designed using standard orthogonal stud rails. The other specimens used newly designed stud rails. The experimental results demonstrated that the modified stud rails significantly improved the specimensâ behavior. The experimental results demonstrated that the modified stud rails significantly improve the specimen behavior. The highest ratio of initial stiffness adequacy of specimen with modified stud rail was 131.19% for risk category I/II, while the ratio of the control specimen was 97.94%. The highest relative energy dissipation ratio of specimen with modified stud rail was 33.82%, while the ratio of the control specimen was 25.94%.

Studi Eksperimental Perilaku Hubungan Pelat-Kolom terhadap Kombinasi Beban Gravitasi dan Lateral Siklis Gunadi, Riawan; Budiono, Bambang; Imran, Iswandi; Sofwan, Ananta
Jurnal Teknik Sipil Vol 19, No 3 (2012)
Publisher : Institut Teknologi Bandung

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Abstrak. Struktur flat slab digunakan secara luas pada bangunan gedung karena beberapa kelebihan dalam aspek struktural maupun arsitektural. Disamping kelebihan tersebut, terdapat kelemahan yang mengakibatkan perilaku yang tidak ideal pada saat struktur menerima kombinasi beban gravitasi dan lateral. Kelemahan tersebut terdapat pada hubungan pelat-kolom, dimana tegangan lentur dan geser terakumulasi sebagai resultan dari beban gravitasi dan momen tak imbang yang disebabkan oleh beban lateral seperti halnya gempa. Untuk mengatasi masalah tersebut, terutama di daerah gempa potensial seperti halnya sebagian besar wilayah Indonesia, perlu dilakukan penelitian untuk meningkatkan perilaku hubungan pelat-kolom. Tulisan ini melaporkan hasil penelitian yang dilaksanakan dengan tiga benda uji berskala 1:2 dari model hubungan pelat-kolom interior yang dirancang dengan ukuran, material, dan detail yang sama, kecuali detail tulangan gesernya. Benda uji pertama, yang digunakan sebagai spesimen kontrol, menggunakan stud rail standar yang dirancang dengan mengacu standar ACI. Benda uji kedua dan ketiga menggunakan stud rail dengan modifikasi detail. Semua benda uji diujidengan beban gravitasi konstan yang dimodelkan dengan blok-blok beton dan simpangan lateral siklis yang mencakup respon elastis sampai inelastis. Hasil penelitian menunjukkan bahwa modifikasi stud rail secara signifikan meningkatkan perilaku hubungan pelat-kolom khususnya dalam hal kekakuan dan disipasi energi. Abstract. Flat slab structures are widely used for buildings because of its advantages both in structural and architectural aspects. Besides its advantages, there is a weakness leads to a poor structural behavior under combined gravity and lateral load. The weakness is concentrated in slab-column connections, where flexural and shear stresses are accumulated as a resultant of gravity load and unbalanced moment caused by lateral load such as earthquake. To solve the problem, especially in potential earthquake zone such as most of the Indonesia region, it is necessary to conduct researches to improve slab-column connections behavior. This paper reports the result of research conducted using three specimens of half scaled interior slab-column connection sub-assemblages designed using simillar dimensions, materials, and details, except the shear reinforcement details. The first specimen, constructed as a control specimen, used standard stud rails designed to comply with ACI codes. The second and third specimens used modified stud rail details. All specimens were subjected to a constant gravity load simulated by concrete blocks and cyclic lateral displacements ranging from elastic to inelastic responses. The experimental results show that modification of the stud rails significantly improves the specimen behavior especially the stiffness and energy dissipation.

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