STUDY ON NONLINEAR VIBRATION OF RUBBER BEARING FOR BASE ISOLATION SYSTEM WITH HYSTERESIS RESTORING FORCE CHARACTERISTICS OF HARDENING TYPE : Dependency of amplitude of horizontal displacement, frequency and surface pressure and analysis of vibration response

Salah satu cara yang dapat dilakukan adalah menggunakan peredam beban gempa dengan sistem isolasi dasar (base isolation system). Penggunaan base isolation system pada bangunan dapat mengisolasi perambatan getaran akibat gempa dari tanah ke struktur atas bangunan menggunakan komponen berbahan karet. Tujuan penelitian ini adalah untuk menganalisis pengaruh penggunaan sistem isolasi dasar berupa High Damping Rubber Bearing pada periode dan gaya geser dasar struktur beton bertulang. Objek penelitian adalah bangunan hotel 15 lantai dengan ketinggian 62,9 m. Penelitian diawali dengan pemodelan struktur menggunakan aplikasi ETABS v2016 sehingga didapatkan periode dan gaya geser dasar struktur fixbase. Tahap selanjutnya memberikan gaya pada model struktur dengan isolasi dasar High Dumper Rubber Bearing sehingga didapatkan periode dan gaya geser dasar struktur dengan base isolator. Hasil analisis pada struktur fixbase didapatkan periode sebesar 4,212 detik, dengan gaya geser dasar didapatkan sebesar 1470,725 ton. Sedangkan hasil analisis pada struktur dengan base isolator didapatkan periode sebesar 5,500 detik, dengan gaya geser dasar didapatkan sebesar 1286,071 ton. Maka dapat disimpulkan bahwa pada struktur dengan base isolator terjadi peningkatan periode sebesar 30,58 %, sedangkan gaya geser dasar terjadi penurunan 12,56 %.

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Reduction of Seismic Response of Mechanical System by Base Isolation System With Friction Bearing

Volume 8: Seismic Engineering ◽

10.1115/pvp2007-26302 ◽

2007 ◽

Cited By ~ 1

Author(s):

Shigeru Aoki ◽

Yuji Nakanishi ◽

Kazutoshi Tominaga ◽

Takeshi Otaka ◽

Tadashi Nishimura ◽

...

Keyword(s):

Mechanical System ◽

Seismic Response ◽

Base Isolation ◽

Low Frequency ◽

Simulation Method ◽

Shaking Table ◽

Restoring Force ◽

Isolation System ◽

Friction Bearing ◽

Base Isolation System

Reduction of seismic response of mechanical system is important problem for aseismic design. Some types of base isolation systems are developed and used in actual base of buildings and floors in buildings for reduction of seismic response of mechanincal system. In this paper, a base isolation system utilizing bearing with friction and restoring force of bearing is proposed. Friction bearing consists of two plates having spherical concaves and oval type metal or spherical metal with rubber. First, effectiveness of the base isolation system is examined experimentally. Using artificial time histories, the isolated table is shaken on the shaking table. The maximum value of response is reduced and sum of squares of response is significantly reduced. Power spectrum is significantly reduced in almost of all frequency regions, except for very low frequency region. Next, in order to examine reduction of seismic response of actual mechanical system, a console rack is set on the isolated plate. Seismic response is also significantly reduced. Finally, obtained results of experiment are examined by simulation method. An analytical model considering friction and restoring force is used. From simulation method, effectiveness of the proposed base isolation system is demonstrated.

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Research on Seismic Response of Base-Isolated Nuclear Island Building considering FSI Effect of PCS Water Tank

Advances in Civil Engineering ◽

10.1155/2020/8878507 ◽

2020 ◽

Vol 2020 ◽

pp. 1-15

Author(s):

Chenning Song ◽

Chao Wei ◽

Zhi Zhang

Keyword(s):

Seismic Response ◽

Base Isolation ◽

Numerical Models ◽

Horizontal Displacement ◽

Reduction Ratio ◽

Isolation Effect ◽

Water Tank ◽

Isolation System ◽

Base Isolation System ◽

Natural Frequency Analysis

Base isolation can be used to reduce seismic response of structure and protect the structure from damage subjected to earthquake. To study the isolation effect of new PWR nuclear power plant with a base isolation system, considering FSI (fluid-structure interaction) effect by the simplified model, two 3D numerical models (one nonisolated model and one isolated model) were established. After natural frequency analysis, one artificial ground motion was chosen to analyze isolation effect qualitatively. Based on the results, the accelerations and relative displacements of nuclear island building under ten natural ground motions were statistically analyzed to evaluate the isolation effect quantitatively. The results show that the base isolation system can reduce the natural frequencies of nuclear island building. Horizontal accelerations can be reduced effectively, but the isolation effect is not obvious in vertical direction. The acceleration reduction ratio of the top is about 70%–90%, and the acceleration reduction ratio of the lower part is about 20%–60%. Horizontal displacement of the isolated model is far larger than that of the nonisolated model, and horizontal displacement will become larger considering FSI effect. These conclusions could provide some references for studies on the isolation system of nuclear island building.

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A study on seismic isolation of building used LRB

Challenge Journal of Structural Mechanics ◽

10.20528/cjsmec.2020.02.001 ◽

2020 ◽

Vol 6 (2) ◽

pp. 52

Author(s):

Muhammet Yurdakul ◽

Mehmet Burak Yıldız

Keyword(s):

Seismic Isolation ◽

Base Isolation ◽

Dynamic Loads ◽

Isolation System ◽

Rubber Bearing ◽

Lead Rubber Bearing ◽

Earthquake Design ◽

Base Isolation System ◽

Internal Forces ◽

Storey Building

Base isolation system with lead rubber bearing (LRB) is commonly used to prevent structure against to damage of earthquake. Design of LRB system is detailed in this study. The isolated building with LRB design according to Uniform Building Code (UBC-97) and fixed building were examined. The six-storey building with LRB and fixed building were modelled in SAP2000 with the same dynamic loads. The relative floor displacement and internal forces of the seismic isolated and fixed building are compared. In addition, transverse and longitudinal reinforcement of any axis of seismic isolated and fixed building are compared. Analyse results showed that effectiveness of using seismic isolation system on building. The weight of longitudinal and transverse reinforcement of isolated building is smaller than fixed building about 36%, 40% respectively.

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Design of Shape Memory Alloy Damper for Base Isolated Structure

Volume 1B: 16th Biennial Conference on Mechanical Vibration and Noise ◽

10.1115/detc97/vib-3824 ◽

1997 ◽

Author(s):

Krzysztof Wilde ◽

Paolo Gardoni ◽

Yozo Fujino ◽

Stefano Besseghini

Keyword(s):

Shape Memory Alloy ◽

Shape Memory ◽

Base Isolation ◽

Hysteretic Behavior ◽

Isolation System ◽

Rubber Bearing ◽

Laminated Rubber Bearing ◽

Base Isolation System ◽

Rubber Bearings ◽

Smart Base Isolation

Abstract Base isolation provides a very effective passive method of protecting the structure from the hazards of earthquakes. The proposed isolation system combines the laminated rubber bearing with the device made of shape memory alloy (SMA). The smart base isolation uses hysteretic behavior of SMA to increase the structural damping of the structure and utilizes the different responses of the SMA at different levels of strain to control the displacements of the base isolation system at various excitation levels. The performance of the smart base isolation is compared with the performance of isolation by laminated rubber bearings to assess the benefits of additional SMA damper for isolation of three story building.

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Seismic Response of Apartment Building with Base Isolation System Consisting of Sliding-type Bearing and Lend Rubber Bearing

Journal of the Korea Concrete Institute ◽

10.4334/jkci.2007.19.4.507 ◽

2007 ◽

Vol 19 (4) ◽

pp. 507-514

Keyword(s):

Seismic Response ◽

Base Isolation ◽

Apartment Building ◽

Isolation System ◽

Rubber Bearing ◽

Base Isolation System

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A Novel Seismic Base Isolation System Consisting of a Lead Rubber Bearing in Series with a Friction Slider. Part I: Nonlinear Modeling of the System

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.256-259.2185 ◽

2012 ◽

Vol 256-259 ◽

pp. 2185-2192

Author(s):

Donato Cancellara ◽

Fabio de Angelis ◽

Mario Pasquino

Keyword(s):

Base Isolation ◽

Nonlinear Modeling ◽

Isolation System ◽

Nonlinear Finite Elements ◽

Rubber Bearing ◽

Lead Rubber Bearing ◽

Base Isolator ◽

Base Isolation System ◽

In Series ◽

Seismic Base Isolation

In this paper a new seismic base isolator, called High Damping Hybrid Seismic Isolator (HDHSI), is proposed. It is obtained by the assembly in series of a Lead Rubber Bearing (LRB) and a Friction Slider (FS) with a high friction coefficient. The HDHSI device is in contrast with the Resilient-Friction Base Isolator (R-FBI) with the aim of optimizing the Electricité De France (EDF) system. The mathematical model of a structure base isolated by a HDHSI system is analyzed with a two Degree of Freedom System (2-DOF) in which the superstructure is assimilated to a rigid body. Nonlinear finite elements are adopted for modeling the HDHSI device. A dynamic nonlinear analysis is performed and the hysteretic cycles are derived and evaluated for the single components and for the innovative HDHSI device.

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