Performance-Based Seismic Analysis of Infilled Wall Frames Structure

2012 ◽  
Vol 226-228 ◽  
pp. 1132-1135
Author(s):  
Shu He Wang ◽  
Jin Long Wang ◽  
Zai Gen Mu ◽  
Ju Bing Zhang ◽  
Ya Ting Liu
Keyword(s):  
Seismic Performance ◽  
Performance Index ◽  
Seismic Analysis ◽  
Element Model ◽  
Paper Analysis ◽  
Frame Structure ◽  
Wall Structure ◽  
Brick Wall ◽  
Displacement Angle ◽  
Earthquake Action

In the practical engineer, the infilled-wall frame structure is widely used by its economy and applicability. Under the project research, the paper establishes a finite element model for infilled-brick-wall structure based on the infilled-wall frame structure performance and after Pushover's analyses,it obtains the inter-story displacement angle, which is anti-seismic performance index to the point each floor of the infilled-wall structure under the different earthquake action . The paper analysis and assesses the infilled-wall frame structure anti-seismic performance based on the anti-seismic performance index and it provides a reference and basis for anti-seismic standard's development towards based-performance direction.

Study on the Seismic Performance of Shear Wall Structure with Unidirectional Wall Frames Based on Pushover Analysis

2013 ◽  
Vol 353-356 ◽  
pp. 1976-1980
Author(s):  
Kang Yuan ◽  
Ying Min Li ◽  
Song Bai Zhang
Keyword(s):  
Seismic Performance ◽  
Development Process ◽  
Plastic Hinge ◽  
Pushover Analysis ◽  
Shear Wall ◽  
Wall Structure ◽  
Deformation Characteristics ◽  
Displacement Angle ◽  
Earthquake Action ◽  
Overturning Moment

In the paper, the equation of stiff characteristic coefficient of shear wall structure with unidirectional wall frames was derived, the deformation characteristics of structure with different wall frames ratio and height were analyzed. Through pushover analysis, the seismic performance of structures were evaluated by interlayer displacement angle and plastic hinge development process. Under earthquake action, increase of wall frames ratio will make plastic deformation increase and maximum interlayer displacement floor move down.The bottom of structure is the weak region, the short wall limbs of wall frames are the weak structural vertical members. The research results show that the wall frames bring adverse effects on the structural seismic performance, so the different design meathods should be carried out according to the overturning moment proportion of wall frames.

Study on Rational Ratios of Lateral Stiffness for Masonry Building with Frame Structure at First Two Stories

2012 ◽  
Vol 174-177 ◽  
pp. 2012-2015
Author(s):  
Xiao Long Zhou ◽  
Ying Min Li ◽  
Lin Bo Song ◽  
Qian Tan
Keyword(s):  
Seismic Performance ◽  
Time History ◽  
Shear Wall ◽  
Calculation Model ◽  
Frame Structure ◽  
Wall Structure ◽  
Masonry Building ◽  
Lateral Stiffness ◽  
Stiffness Ratio ◽  
Lateral Stiffness Ratio

There are two typical seismic damage characteristics to the masonry building with frame shear wall structure at first two stories, and the lateral stiffness ratio of the third storey to the second storey is one of the key factors mostly affecting the seismic performance of this kind of building. However, some factors are not considered sufficiently in current Chinese seismic codes. According to the theory of performance-based seismic design, the seismic performance of this kind of structure is analyzed in this paper by taking time-history analysis on models which with different storey stiffness ratios. The results show that when the lateral stiffness ratio controlled in a reasonable range, the upper masonry deformation can be ensured in a range of elastic roughly, and the bottom frame can be guaranteed to have sufficient deformation and energy dissipation capacity. Finally, according to the seismic performance characteristics of masonry building with frame shear wall structure at first two stories, especially the characteristics under strong earthquakes, a method of simplified calculation model for the upper masonry is discussed in this paper.

Based on the Grey Relation Analysis of Ecological Composite Wall Seismic Performance Research

2013 ◽  
Vol 368-370 ◽  
pp. 1043-1047
Author(s):  
Yin Zhang ◽  
You Han ◽  
Shuai Liang
Keyword(s):  
Seismic Performance ◽  
Evaluation System ◽  
Design Method ◽  
Structure Design ◽  
Grey System Theory ◽  
Frame Structure ◽  
Wall Structure ◽  
Width Ratio ◽  
Grey System ◽  
Composite Wall

Ecological composite wall as ecological composite wall structure of the main stress components, the seismic performance is ecological composite wall structure seismic performance evaluation system of the main content. Based on the grey system theory, the grey correlation analysis to the key parameters (the mouth of the cave, frame structure, height to width ratio) change ecological composite wall test results are analyzed, the key parameters on the ecological composite wall the influence law of seismic performance, for choosing wall structure design method to provide basis.

The Damage Characteristic Influence and the Seismic Measure Research on the Frame Structure by the Filler Wall

2011 ◽  
Vol 243-249 ◽  
pp. 447-452
Author(s):  
De Jian Yang ◽  
Sai Lan Mao
Keyword(s):  
Adverse Effects ◽  
Seismic Performance ◽  
Design Method ◽  
Shear Wall ◽  
Frame Structure ◽  
Wall Structure ◽  
Related Research ◽  
Weak Layer ◽  
Current Design ◽  
Damage Characteristic

The paper analyses the damages of the frame structure with bottom weak layer considering of Wenchuan earthquake. The analysis result indicates the current design method "pure frame" is imperfect. The related research shows that important reason for the bottom weak layer’s breakage is the stiffness mutation which is caused by the filler wall. If we arranged partial shear wall structure in the bottom weak layer, the adverse effects of stiffness mutation will be decreased, and improve the seismic performance of the frame structure with bottom weak layer.

Research on Seismic Performance of Framed Shear Wall Structure

2016 ◽  
Vol 835 ◽  
pp. 461-466
Author(s):  
Xue Feng Zhou ◽  
Dan Dan Lv
Keyword(s):  
Seismic Performance ◽  
Shear Wall ◽  
Wall Structure ◽  
Building Structure ◽  
High Rise ◽  
Finite Element Software ◽  
The Third ◽  
The Poor ◽  
Earthquake Action ◽  
Overturning Moment

The framed shear wall structure is a high-rise building structure with a transfer story, which has the poor seismic performance (upper rigid and lower flexible). The frame layer in the earthquake is prone to fail, which may even cause the collapse of building. In this paper, it uses the finite element software SATWE to explore the seismic performance of framed shear wall structure. Then we can draw the following conclusions: When the transfer story is set from the third layer to the ninth layer, the earthquake action of transfer story varies from 437.2kN into 564.9kN and is significantly higher than that of upper and lower layers; All the period of free vibration, angles of drift, bottom shear force, overturning moment of the structure have adverse effects on the structure, which are also detrimental to the structural seismic.

Comparison and Study on Seismic Performance of the Special-Shaped Column and Rectangular Column Frame Structure

2013 ◽  
Vol 405-408 ◽  
pp. 1110-1114
Author(s):  
Qin Peng ◽  
Yi Teng Huang ◽  
Yong Kun Luo
Keyword(s):  
Seismic Performance ◽  
Time History ◽  
Dynamic Structure ◽  
Frame Structure ◽  
Column Structure ◽  
History Analysis ◽  
Seismic Property ◽  
Earthquake Action ◽  
The Moment ◽  
Comparison And Study

By introducing the basic concepts and designing principles of special-shaped column structure, this paper attempts to establish three finite element models (the special-shaped column structure, rectangular column structure with the equal area and rectangular column structure with the moment of inertia) by using the SAP2000. And the basic dynamic structure properties of three structures are analyzed. It’s base of the dynamic analysis for the structure. Then, the paper analyzes the elastic seismic performance under the horizontal earthquake action by using the vibration spectrum method and the elastic time-history analysis method. The results show that three models are all in the elastic steps. We compared the anti-seismic property of three models under frequent earthquake.

scholarly journals Seismic Performance of a Corroded Reinforce Concrete Frame Structure Using Pushover Method

2018 ◽  
Vol 2018 ◽  
pp. 1-12 ◽  
Author(s):  
Meng Zhang ◽  
Ran Liu ◽  
Yaoliang Li ◽  
Guifeng Zhao
Keyword(s):  
Seismic Performance ◽  
Pushover Analysis ◽  
Element Model ◽  
Reinforce Concrete ◽  
Frame Structure ◽  
Rc Frame ◽  
Concrete Frame ◽  
Rc Frame Structure ◽  
Negative Effect ◽  
Rare Earthquake

SAP2000 software was used to build the finite element model of a six-storey-three-span reinforced concrete (RC) frame structure. The numerical simulation of the seismic performance of the RC frame structure incorporating different levels of rebar corrosion was conducted using pushover analysis method. The degradation characteristics of the seismic performance of the corroded structure under severe earthquake were also analyzed. The results show that the seismic performance of the RC frame decreased significantly due to corrosion of the longitudinal rebars. And the interstory drift ratios increase dramatically with the increasing of the corrosion rate. At the same time, the formation and development of plastic hinges (beam hinges or column hinges) will accelerate, which leads to a more aggravated deformation of the structure under rare earthquake action, resulting in a negative effect to the seismic bearing capacity of the structure.

Seismic Behavior of Super High-Rise Frame-Core Wall Structure

2012 ◽  
Vol 226-228 ◽  
pp. 967-971
Author(s):  
Ji Xing Yuan ◽  
Qing Zhang
Keyword(s):  
Failure Mode ◽  
Seismic Performance ◽  
Time History ◽  
Frame Structure ◽  
Wall Structure ◽  
Coupling Beams ◽  
High Rise ◽  
Seismic Shear ◽  
Earthquake Force ◽  
Dynamic Time

In this paper a super high-rise frame-core wall as an example, It was analyzed the frame-core wall structure system under action of earthquake force features, set reasonable seismic performance objectives, analysis the structure reasonable failure mode, made it have enough bearing capacity and ductility for a reasonable design of frame and coupling wall-beam, could make the frame-core wall structure with multiple seismic fortification lines, improve the seismic performance of the frame-core wall structure. Finally, the action of earthquake deformation and seismic shear force distribution was analyzed through the elastic dynamic time-history analysis. After a reasonable optimization analysis showed: Frame-core wall structure could have three seismic fortification lines: coupling beams, core wall, frame structure, and had enough energy dissipation ability at the same time, could form the rational failure mode, improved the seismic performance of the structure.

scholarly journals PENGARUH PASANGAN DINDING BATA PADA RESPON DINAMIK STRUKTUR GEDUNG AKIBAT BEBAN GEMPA

2016 ◽  
Vol 18 (1) ◽  
pp. 9-14
Author(s):  
Himawan Indarto ◽  
Bambang Pardoyo ◽  
Nur Fahria R ◽  
Ita Puji L
Keyword(s):  
Structural Analysis ◽  
Structural Model ◽  
Time History ◽  
Frame Structure ◽  
Wall Structure ◽  
Brick Wall ◽  
Base Shear ◽  
Significant Difference ◽  
Earthquake Load ◽  
Equivalent Method

For analysis purpose, the model system of structure is created as open frame structure rather than massive structure. However, the brick wall will affect to the behavior of the dynamic response when the earthquake induces the structure. The results of structural analysis by time history method using El-Centro earthquake, it reveales a significant difference of base shear between two types of structural model: (i) brick wall structure and (ii) non-brick wall structure. The base shear exists on the brick wall structure 20 percent greater than non-brick wall structure. Therefore, a structure without brick wall will be more irressistant due to the earthquake. The structural analysis using static equivalent method as point out in Standard of Earthquake Resistant for Building and Non Building (SNI 03-1726-2012) revealed that earthquake distribution loads relatively equal for brick wall structure and non-brick wall structure. The difference of earthquake load approximately 10 percent among two type of structure. Thus, it could be concluded that static equivalent method is more reliable to estimate the earthquake load of the structure rather than other method. This research suggests that in the structural design practicality, the effect of brick wall should be considered as a part of the structural analysis model.Untuk keperluan analisis, sistem struktur biasanya dimodelkan sebagai struktur rangka terbuka, dimana hanya elemen-elemen struktur yang terbuat dari material beton saja yang disusun didalam pemodelan struktur. Adanya pasangan dinding bata pada sistem struktur akan mempengaruhi perilaku dari respon dinamik struktur pada saat terjadi gempa. Dari hasil analisis struktur dengan Metode Riwayat Waktu (Time History Analysis) menggunakan gempa El-Centro, didapatkan perbedaan nilai base shear yang cukup signifikan antara struktur dengan dinding bata yang dipasang monolit dengan struktur tanpa dinding bata. Base shear yang terjadi pada struktur dengan dinding bata lebih besar 20% dibandingkan dengan beban base shear yang terjadi pada struktur tanpa dinding bata. Jika hal ini tidak diperhatikan pada saat perencanaan struktur, maka struktur akan lebih mudah rusak jika terjadi gempa. Dari hasil analisis struktur dengan Metode Statik Ekivalen sesuai yang tercantum di dalam Tata Cara Perencanaan Ketahanan Gempa Untuk Struktur Gedung dan Non Gedung (SNI 03-1726-2012), didapatkan nilai distribusi beban gempa pada struktur gedung yang relative sama besar untuk bangunan dengan dinding bata dan tanpa dinding bata. Perbedaan besarnya distribusi gaya gempa untuk bangunan dengan dan tanpa dinding bata, kurang dari 10%. Dengan demikian dapat disimpulkan bahwa Metode Statik Ekivalen ini cukup aman digunakan untuk memperkirakan beban gempa yang bekerja pada struktur.

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