Studi penggunaan buckling-restrained braced frames pada bangunan beton bertulang tahan gempa
S truktur bangunan yang mempergunakan sistem bresing memiliki keunggulan untuk menambah kekakuan struktur ketika menahan gaya gempa, namun bresing konvensional memiliki kelemahan akan mengalami kegagalan tekuk sebelum terjadinya kelelehan pada material ketika menerima gaya aksial tekan. Dengan demikian, hal tersebut menjadi landasan utama dikembangkannya suatu sistem bresing yang secara konsisten dapat memikul gaya aksial tarik dan tekan yang relatif sama yaitu Buckling – Restrained Brace (BRB). BRB sendiri memiliki beton pengekang yang mengelilinginya sehingga bresing ini tidak akan mengalami tekuk ketika tertekan.
6 24/5000Building structures that use bresing systems have the advantage of increasing the stiffness of structures when resisting seismic forces, but conventional bresing has the disadvantage of buckling failure prior to material melting when receiving axial force press. Thus, it becomes the main foundation for the development of a bresing system that can consistently carry a relatively comparable axial and tensile force of Buckling - Restrained Brace (BRB). BRB itself has a restraining concrete that surrounds it so this bresing will not buckle when depressed.This study will discuss the design of a 10-storey reinforced concrete building attached BRB and compare the effectiveness of its configuration in the form of inverted v and cross 2 story. The analysis was conducted with the help of ETABS program version 15.2.2 and using the current Indonesian National Standardization Standard (SNI). From the study results it can be concluded that BRB with cross 2 story configuration is generally more effective when compared with inverted v.