Performance comparisons of triple friction pendulum bearings with different sliding surface properties
Yıl: 2021 Cilt: 4 Sayı: 3 Sayfa Aralığı: 151 - 162 Metin Dili: İngilizce DOI: 10.31462/jseam.2021.03151162 İndeks Tarihi: 19-05-2022
Performance comparisons of triple friction pendulum bearings with different sliding surface properties
Öz: In this study the time history analyses are carried out three dimensionally for a simple five-story concrete structure seismically isolated incorporating triple friction pendulum bearings with different sliding surface properties with the help of the ABAQUS finite element program. The altering friction surface properties are friction coefficient and radius of curvature. The performances of the various isolators are compared with each other as well as with those of a fixed based structure. For this purpose, maximum relative story displacements, story accelerations and column base shear forces are investigated as seismic reactions. According to the analysis results it can be stated that the seismic reactions of isolated structures are significantly reduced when compared to those of the fixed supported structure. Additionally, when triple friction pendulum bearing isolators with different friction coefficients and friction surface radii are compared, it can be observed that increasing the friction coefficient increases the reactions of the structure while increasing the friction surface radii decreases the reactions
Anahtar Kelime: Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık
- [1] Namiranian P, Ghodrati Amiri G, Veismoradi S (2016) Near-fault seismic performance of triple variable friction pendulum bearing. Journal of Vibroengineering 18:2293–2303.
- [2] Fenz DM, Constantinou MC (2006) Behaviour of the double concave Friction Pendulum bearing. Earthquake Engineering and Structural Dynamics 35:1403–1424.
- [3] Fenz DM, Constantinou MC (2008) Modeling triple friction pendulum bearings for responsehistory analysis. Earthquake Spectra 24:1011– 1028.
- [4] Fenz DM, Constantinou MC (2008) Spherical sliding isolation bearings with adaptive behavior: Experimental verification. Earthquake Engineering and Structural Dynamics 37:185–205.
- [5] Fenz DM, Constantinou MC (2008) Spherical sliding isolation bearings with adaptive behavior: Theory. Earthquake Engineering and Structural Dynamics 37:163–183.
- [6] Pigouni AE, Castellano MG, Infanti S, Colato GP (2019) Full-scale dynamic testing of pendulum isolators (Curved surface sliders). Soil Dynamics and Earthquake Engineering 130(Mar):105983.
- [7] Deringöl AH (2018) Seismic performance of steel moment frames with variable friction pendulum systems under real ground motions. International Advanced Researches and Engineering Journal 2:208–216.
- [8] Castaldo P, Tubaldi E (2018) Influence of ground motion characteristics on the optimal single concave sliding bearing properties for base-isolated structures. Soil Dynamics and Earthquake Engineering 104:346-364.
- [9] Calvi PM, Moratti M, Calvi GM (2016) Seismic isolation devices based on sliding between surfaces with variable friction coefficient. Earthquake Spectra 32:2291–2315.
- [10] Yurdakul M, Ateş Ş (2011) Modeling of triple concave friction pendulum bearings for seismic isolation of buildings. Structural Engineering and Mechanics 40:315–334.
- [11] ABAQUS, Analysis User’s Guide Volume IV: Elements Version 6.14, Dassault Systemes Simulia, Inc., Providence, RI, USA, 2014.
- [12] Xu Y, Guo T, Yan P (2019) Design optimization of triple friction pendulums for base-isolated high-rise buildings. Structural Engineering 22:2727–2740.
- [13] Loghman V, Khoshnoudian F, Banazadeh M (2015) Effect of vertical component of earthquake on seismic responses of triple concave friction pendulum base-isolated structures. Journal of Vibration and Control 21:2099–2113.
- [14] Malekzadeh M, Taghikhany T (2012) Multi-stage performance of seismically isolated bridge using triple pendulum bearings. Advances in Structural Engineering 15:1181–1196.
- [15] Reyes JC, Herrera MT, Paul Smith-Pardo J, Córdoba, LS (2020) Effective live load mass for storage buildings on friction-pendulum isolators. Engineering Structures 218(May):110843.
- [16] Dao D (2012) Seismic response of a full-scale 5- story steel frame building isolated by triple pendulum bearings under 3D excitations. PhD Dissertation, University of Nevada, Reno.
- [17] Morgan TA, Mahin SA (2011) The use of base isolation systems to achieve complex seismic performance objectives. Tokyo Institute of Technology. In PEER Report 2011/06 (Issue July).
- [18] Gere JM (2004) Mechanics of Materials, 6th Edition. Thomson Learning, Inc., USA.
- [19] EN 1993-1-1 (2005) Eurocode 3: Design of steel structures-Part 1-1: General rules and rules for buildings.
| APA | Karakaş A, Zulfakar M (2021). Performance comparisons of triple friction pendulum bearings with different sliding surface properties. , 151 - 162. 10.31462/jseam.2021.03151162 |
| Chicago | Karakaş Ali,Zulfakar Muhamad Performance comparisons of triple friction pendulum bearings with different sliding surface properties. (2021): 151 - 162. 10.31462/jseam.2021.03151162 |
| MLA | Karakaş Ali,Zulfakar Muhamad Performance comparisons of triple friction pendulum bearings with different sliding surface properties. , 2021, ss.151 - 162. 10.31462/jseam.2021.03151162 |
| AMA | Karakaş A,Zulfakar M Performance comparisons of triple friction pendulum bearings with different sliding surface properties. . 2021; 151 - 162. 10.31462/jseam.2021.03151162 |
| Vancouver | Karakaş A,Zulfakar M Performance comparisons of triple friction pendulum bearings with different sliding surface properties. . 2021; 151 - 162. 10.31462/jseam.2021.03151162 |
| IEEE | Karakaş A,Zulfakar M "Performance comparisons of triple friction pendulum bearings with different sliding surface properties." , ss.151 - 162, 2021. 10.31462/jseam.2021.03151162 |
| ISNAD | Karakaş, Ali - Zulfakar, Muhamad. "Performance comparisons of triple friction pendulum bearings with different sliding surface properties". (2021), 151-162. https://doi.org/10.31462/jseam.2021.03151162 |
| APA | Karakaş A, Zulfakar M (2021). Performance comparisons of triple friction pendulum bearings with different sliding surface properties. Journal of Structural Engineering & Applied Mechanics (Online), 4(3), 151 - 162. 10.31462/jseam.2021.03151162 |
| Chicago | Karakaş Ali,Zulfakar Muhamad Performance comparisons of triple friction pendulum bearings with different sliding surface properties. Journal of Structural Engineering & Applied Mechanics (Online) 4, no.3 (2021): 151 - 162. 10.31462/jseam.2021.03151162 |
| MLA | Karakaş Ali,Zulfakar Muhamad Performance comparisons of triple friction pendulum bearings with different sliding surface properties. Journal of Structural Engineering & Applied Mechanics (Online), vol.4, no.3, 2021, ss.151 - 162. 10.31462/jseam.2021.03151162 |
| AMA | Karakaş A,Zulfakar M Performance comparisons of triple friction pendulum bearings with different sliding surface properties. Journal of Structural Engineering & Applied Mechanics (Online). 2021; 4(3): 151 - 162. 10.31462/jseam.2021.03151162 |
| Vancouver | Karakaş A,Zulfakar M Performance comparisons of triple friction pendulum bearings with different sliding surface properties. Journal of Structural Engineering & Applied Mechanics (Online). 2021; 4(3): 151 - 162. 10.31462/jseam.2021.03151162 |
| IEEE | Karakaş A,Zulfakar M "Performance comparisons of triple friction pendulum bearings with different sliding surface properties." Journal of Structural Engineering & Applied Mechanics (Online), 4, ss.151 - 162, 2021. 10.31462/jseam.2021.03151162 |
| ISNAD | Karakaş, Ali - Zulfakar, Muhamad. "Performance comparisons of triple friction pendulum bearings with different sliding surface properties". Journal of Structural Engineering & Applied Mechanics (Online) 4/3 (2021), 151-162. https://doi.org/10.31462/jseam.2021.03151162 |
