Analysis of Seismic Isolation Device for Earthquake Resistant Building Structure Reinforcement

To enhance the seismic performance by using the traditional method of building function, will affect the building using function. Therefore, not affecting the building using performance, the isolation device for seismic reinforcement, only through the underground part of the building project can solve these problems. In this paper, through government building envelope analysis and time history analysis, the seismic strengthening of building structures under earthquake action effects before and after the isolation device, fully explain the role.

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Calculation and Analysis of a Tall Building Seismic Isolation Design

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.353-356.2177 ◽

2013 ◽

Vol 353-356 ◽

pp. 2177-2180

Author(s):

Hao Ming Cai ◽

Zhong Tao ◽

Xin Li Cao

Keyword(s):

Seismic Design ◽

Seismic Isolation ◽

Time History ◽

Tall Building ◽

Wall Structure ◽

Analysis Method ◽

History Analysis ◽

Story Drift ◽

Rare Earthquake ◽

Building Project

In this paper, we calculate and analyze a tall building project of seismic isolation design. It is a frame-shear wall structure, which has twelve stories on the ground. And then, we use the time history analysis method to calculate the isolation structure. It is found that isolation equipment can extend the period of the structure, reduce the story drift in frequency earthquake. And it also can control the response of the structure. In rare earthquake, the story drift can meet the demand of unclasped; the displacement and force of the equipment can satisfy the demand of the code for seismic design of building.

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Time-History Analysis of a Super-Large Storage Tank Under Seismic Excitation

Volume 1B: Codes and Standards ◽

10.1115/pvp2013-97541 ◽

2013 ◽

Author(s):

Fan Bu ◽

Caifu Qian

Keyword(s):

Storage Tank ◽

Time History ◽

Time History Analysis ◽

Radial Deformation ◽

Tank Wall ◽

History Analysis ◽

Medium Level ◽

Wall Deformation ◽

Slow Progress ◽

Earthquake Action

In this paper, two finite element models are established for a super-large storage tank with or without a floating roof on the medium level. Time-history analysis with consideration of fluid-solid coupling for the deformation of tank wall and medium sloshing during or after an earthquake is performed with the emphasis on the effects of the floating roof. It is found that the upper part of tank is more sensitive to the earthquake action than the lower part. The wind girders and the reinforcing rings play a big role in limiting the radial deformation of the upper part of the tank wall. The floating roof has little effect on the tank wall deformation, but it is effective in suppressing the medium sloshing during the earthquake. After the earthquake, the radial deformation of the tank wall attenuates quickly, but the sloshing attenuation of the medium presents a slow progress and the floating roof inhibits the sloshing attenuation of the medium.

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Application of Earthquake Resistance Analysis Technique in the Design of Constructional Engineering

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.756-759.4482 ◽

2013 ◽

Vol 756-759 ◽

pp. 4482-4486

Author(s):

Chun Gan ◽

Xue Song Luo

Keyword(s):

Response Spectrum ◽

Structural Response ◽

Time History ◽

Economic Losses ◽

Element Analysis ◽

Architectural Engineering ◽

Analysis Technique ◽

History Analysis ◽

Earthquake Resistant ◽

History Of

In recent years, frequent earthquakes have caused great casualties and economic losses in China. And in the earthquake, damage of buildings and the collapse is the main reason causing casualties. Therefore, in the design of constructional engineering, a seismicity of architectural structure is the pressing task at issue. Through time history analysis method, this paper analyzes the time history of building structural response and then it predicts the peak response of mode by response spectrum analysis. Based on this, this paper constructs a numerical simulation model for the architecture by using finite element analysis software SATWE. At the same time, this paper also calculates the structure seismic so as to determine the design of each function structure in architectural engineering design and then provides reference for the realization of earthquake-resistant building.

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Base-Isolated Multi-Storey Reinforced Concrete Frame Structure Modal Analysis

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.204-208.869 ◽

2012 ◽

Vol 204-208 ◽

pp. 869-871

Author(s):

Cai Hua Wang ◽

Hui Jian Li ◽

Jian Feng Wu

Keyword(s):

Reinforced Concrete ◽

Modal Analysis ◽

Seismic Isolation ◽

Base Isolation ◽

Frame Structure ◽

Reinforced Concrete Frame ◽

Concrete Frame ◽

Reinforced Concrete Frame Structure ◽

Before And After ◽

Isolation Device

The multi-storey reinforced concrete frame structure used lead rubber pad as the base isolation device. The paper had modal analysis of base-isolated multi-storey reinforced concrete frame structure using the ANSYS software. Comparing the frequency and vibration mode before and after isolation under El-Centro wave, It concluded the leader rubber pad have seismic isolation effect for multi-storey reinforced concrete frame structure .

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Development of an Evaluation Method for Seismic Isolation Systems of Nuclear Power Facilities: Part 2 — Application of CCFS Method to the Multiply Supported Systems

Volume 8: Seismic Engineering ◽

10.1115/pvp2014-28999 ◽

2014 ◽

Cited By ~ 1

Author(s):

Koichi Tai ◽

Keisuke Sasajima ◽

Shunsuke Fukushima ◽

Noriyuki Takamura ◽

Shigenobu Onishi

Keyword(s):

Power Plant ◽

Nuclear Power ◽

Seismic Isolation ◽

Evaluation Method ◽

Time History ◽

Piping System ◽

History Analysis ◽

Piping Systems ◽

Isolation Systems ◽

Seismic Isolation Systems

This paper provides a part of series of “Development of an Evaluation Method for Seismic Isolation Systems of Nuclear Power Facilities”. Paper is focused on the seismic evaluation method of the multiply supported systems, as the one of the design methodology adopted in the equipment and piping system of the seismic isolated nuclear power plant in Japan. Many of the piping systems are multiply supported over different floor levels in the reactor building, and some of the piping systems are carried over to the adjacent building. Although Independent Support Motion (ISM) method has been widely applied in such a multiply supported seismic design of nuclear power plant, it is noted that the shortcoming of ignoring correlations between each excitations is frequently misleaded to the over-estimated design. Application of Cross-oscillator, Cross-Floor response Spectrum (CCFS) method, proposed by A. Asfura and A. D. Kiureghian[1] shall be considered to be the excellent solution to the problems as mentioned above. So, we have introduced the algorithm of CCFS method to the FEM program. The seismic responses of the benchmark model of multiply supported piping system are evaluated under various combination methods of ISM and CCFS, comparing to the exact solutions of Time History analysis method. As the result, it is demonstrated that the CCFS method shows excellent agreement to the responses of Time History analysis, and the CCFS method shall be one of the effective and practical design method of multiply supported systems.

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Study on Seismic Performance of Reinforced Concrete Masonry High-Rise Building

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.166-169.2164 ◽

2012 ◽

Vol 166-169 ◽

pp. 2164-2170

Author(s):

Xu Jie Sun ◽

Hou Zhang ◽

Da Gang Lu ◽

Feng Lai Wang

Keyword(s):

Reinforced Concrete ◽

Response Spectrum ◽

Pushover Analysis ◽

Time History ◽

Time History Analysis ◽

Masonry Building ◽

Analysis Method ◽

Concrete Masonry ◽

History Analysis ◽

Earthquake Action

The design process of the 100 m high reinforced concrete masonry building in China was firstly presented, deformation check calculation under earthquake action by mode-superposition response spectrum method and time-history analysis method were detailed and deformation under wind load was also checked. Then elastic-plastic deformation under earthquake action was checked by time-history analysis method and pushover analysis method with both under uniform load and reverse triangle load. The conclusion is construct 100 m high office building built in Fortification intensity 6 by reinforced concrete masonry is feasible. Then the building was redesigned as built in fortification 7, the same check was performed as that have been done in fortification 6, it is feasible too.

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Friction-Type Seismic Isolation Device of Steel Pile Foundation in Shaking Table Tests and its Numerical Simulations

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.845.233 ◽

2016 ◽

Vol 845 ◽

pp. 233-239

Author(s):

Buntara Sthenly Gan ◽

Susumu Nakamura ◽

Noriaki Sento ◽

Kosuke Ito

Keyword(s):

Numerical Simulations ◽

Pile Foundation ◽

Seismic Isolation ◽

Low Cost ◽

Time History ◽

Shaking Table ◽

Steel Sphere ◽

Pile Cap ◽

Isolation Device ◽

Nonlinear Time History

Pile foundation equipped with a low-cost frictional type seismic isolation device is investigated. The frictional mechanism results from a contact between two surfaces of a half steel sphere mounted on the pile cap and the corresponding inner steel sphere embedded in the footing of upper structure. To verify the mechanical behaviors of the pile with frictional type seismic isolation device, tests, and its numerical simulations have been performed. The rotational friction device is found to be very effective in releasing the internal energy transferred from the pile foundation to the upper structure. The behavior of the friction-type device was studied by modeling using the nonlinear time history dynamic analysis. It was observed that the responses of the structures with devices can be approximated by using springs and dampers model.

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Irregular Structure of the Metal Energy Dissipation Wrest Resistant Performance Analysis

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.105-107.818 ◽

2011 ◽

Vol 105-107 ◽

pp. 818-822

Author(s):

Xiao Fei Teng ◽

Si Yang Chen ◽

Bin Luo

Keyword(s):

Time History ◽

Frame Structure ◽

Software Modeling ◽

Element Analysis ◽

Irregular Structure ◽

History Analysis ◽

Framework Model ◽

Before And After ◽

Integral Structure ◽

Dynamic Time

To make a top local adding stories of “L” flat facade irregular frame structure with good resistance to twist and integrity, can better satisfy the requirements of local seismic fortification intensity,using metal damper to this after-adding-stories framework model for processing. Using SAP2000 finite element analysis software modeling and in its install metal damper dynamic time-history analysis before and after. Results show that the structure using metal consumption technology in consume earthquake input energy at the same time can enhance structure rigid and floor wrest resistant and strengthen the lateral stiffness integral structure seismic performance.

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Vibration Analysis of Bridge Structure under Moving Train Load and Earthquake Action

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.501-504.1266 ◽

2014 ◽

Vol 501-504 ◽

pp. 1266-1269 ◽

Cited By ~ 1

Author(s):

Bei Bei Fan ◽

Yuan Zhang ◽

Dong Hua Ruan

Keyword(s):

Dynamic Response ◽

Time History ◽

Dynamic Effect ◽

Bridge Structure ◽

Steel Truss Bridge ◽

History Analysis ◽

Steel Truss ◽

Earthquake Action ◽

Truss Bridge ◽

Moving Train

In this paper, vibration of a steel truss bridge under moving train and earthquake action is analyzed. The following conclusions are drawn by modal analysis and time-history analysis. 1) Lateral dynamic response of this structure is more obvious under earthquake action and lateral dynamic effect of train running load; 2) seismic response in the directions different from train load is small, and dynamic response becomes larger obviously when they are considered together.

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Development of synthetic ground motion at a specific site in Yogyakarta town, Indonesia utilizing the PSHA Method

E3S Web of Conferences ◽

10.1051/e3sconf/202015602011 ◽

2020 ◽

Vol 156 ◽

pp. 02011

Author(s):

Widodo Pawirodikromo ◽

Lalu Makrup ◽

Mochamad Teguh ◽

Bambang Suryo

Keyword(s):

Pilot Study ◽

Ground Motion ◽

Hazard Analysis ◽

Ground Motions ◽

Time History ◽

Building Structures ◽

Uniform Hazard Spectra ◽

Crustal Earthquakes ◽

History Analysis ◽

Dynamic Time

This paper presents the development of synthetic ground motion at specific sites in Yogyakarta town. In the 2019 Indonesian Seismic Code [1] provides an alternative method in the analysis of building structures by applying the dynamic time history analysis. At least 11-pairs of earthquake recordings must be used in the analysis. Synthetic ground motion utilizing the Method of Probability Seismic Hazard Analysis (PSHA) was used in this study. A selected site in Yogyakarta town was chosen as a pilot study considering that there were many fatalities and building damage caused by the 2006 Yogyakarta earthquake. The Uniform Hazard Spectra (UHS) based on the shallow crustal earthquake source is higher than the Megathrust. The risk targeted spectrum demand MCEr has been considered, which on average 12.3% greater than the UHS. The synthetic ground motions (SGM) are accordingly based on the shallow crustal earthquakes. The dominant magnitude and distance are MD = 6.5 and RD = 14.5 km. They show that the contribution of the Opak River fault to the hazard in Yogyakarta town is very dominant because the distance is very close. Based on the obtained MD and RD, spectral matching, and testing significant duration D595, the 12-synthetic ground motions were successfully developed.

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