TY - JOUR
T1 - Development of ductile truss system using double small buckling-restrained braces
T2 - Analytical study
AU - Sugihardjo, Hidajat
AU - Lesmana, Yudha
AU - Prasetya, Dwi
N1 - Publisher Copyright:
© 2019 Sugihardjo et al.
PY - 2019
Y1 - 2019
N2 - Introdution: This paper proposed a Small Buckling-Restrained Brace (SBRB) for the ductile truss moment frames and is called here as the Double Braced Truss Moment Frames (DB-TMF). The braces are located at the edge of the truss girder and are only placed around the building perimeter. The braces work in pair as a weak element (structural fuses) and is expected to effectively absorb the seismic energy. The proposed DB-TMF system is an extended development of the Knee Braced Truss Moment Frames (KB-TMF). The DB-TMF system is expected to carry the whole seismic loads, while the rest of the frame is designed to carry only the gravity loads. Methods: To study the performance of the proposed DB-TMF system, non-linear finite element analysis was carried out using the DRAIN-2DX package. From the analysis with various time history records, it was found that the drift ratio of the DB-TMF system is lower than the allowed story drift. The roof-top displacement shows an asymptotic behavior. The shape of the hysteresis curve tends to have a pinching shape. However, the cumulative ductility of the proposed system satisfies the requirements as a hysteretic structure. In the event of an earthquake, only the SBRB and the chords adjacent to the column element are damaged while the rest of the structural elements remain elastic which is expected. Results and Conclusion: Based on the performance evaluation of the DB-TMF system, the DB-TMF system is suitable for moderate seismic region and has smaller dimension steel sections compared to the KB-TMF system.
AB - Introdution: This paper proposed a Small Buckling-Restrained Brace (SBRB) for the ductile truss moment frames and is called here as the Double Braced Truss Moment Frames (DB-TMF). The braces are located at the edge of the truss girder and are only placed around the building perimeter. The braces work in pair as a weak element (structural fuses) and is expected to effectively absorb the seismic energy. The proposed DB-TMF system is an extended development of the Knee Braced Truss Moment Frames (KB-TMF). The DB-TMF system is expected to carry the whole seismic loads, while the rest of the frame is designed to carry only the gravity loads. Methods: To study the performance of the proposed DB-TMF system, non-linear finite element analysis was carried out using the DRAIN-2DX package. From the analysis with various time history records, it was found that the drift ratio of the DB-TMF system is lower than the allowed story drift. The roof-top displacement shows an asymptotic behavior. The shape of the hysteresis curve tends to have a pinching shape. However, the cumulative ductility of the proposed system satisfies the requirements as a hysteretic structure. In the event of an earthquake, only the SBRB and the chords adjacent to the column element are damaged while the rest of the structural elements remain elastic which is expected. Results and Conclusion: Based on the performance evaluation of the DB-TMF system, the DB-TMF system is suitable for moderate seismic region and has smaller dimension steel sections compared to the KB-TMF system.
KW - Cumulative ductility
KW - Double small buckling-retrained braces
KW - Ductile truss moment frames
KW - Hysteretic structure
KW - KB-TMF
KW - Low yield strength
KW - STMF
UR - http://www.scopus.com/inward/record.url?scp=85062325671&partnerID=8YFLogxK
U2 - 10.2174/1874149501913010010
DO - 10.2174/1874149501913010010
M3 - Article
AN - SCOPUS:85062325671
SN - 1874-1495
VL - 13
SP - 10
EP - 19
JO - Open Civil Engineering Journal
JF - Open Civil Engineering Journal
IS - 1
ER -