Paper Titles

Microstructure and Temperature Characterization of Compound Crumb Rubber Modified Asphalt
p.382

Safe and Eco-Friendly Haze-Eliminating Pavement Coating
p.387

Application of High Ti-Bearing Blast Furnace Slag in Field of Building Materials
p.392

Application Status Analysis of Biomass Ash in Cement Concrete
p.396

Analysis of Collapse Earthquake Plan and Rescue Technology of Existing Concrete Frame Structure
p.401

Status of Feedlot Biomass (Cattle Manure) Ash Concrete
p.406

Legs of Ocean Platform in the Gulf of Bohai Ice Load Safety Analysis
p.410

Reuse of Sand Disposed of Foundry in Lieu of Sand Natural in the Manufacture of Structural Blocks
p.416

The Application of ACF Inorganic Fibers Wool Board as External Thermal Insulation for Energy-Efficient Retrofit Project
p.420

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1052Analysis of Collapse Earthquake Plan and Rescue...

Analysis of Collapse Earthquake Plan and Rescue Technology of Existing Concrete Frame Structure

Article Preview

Abstract:

This paper aims at the problem which is lack of practical operability although there are many written instructions in collapse earthquake plan and rescue technology of existing concrete frame structure. Research status of earthquake prevention and disaster reduction of existing concrete frame structure is presented. the existing problems of rescue program and technology is analyzed when earthquake is happened in existing concrete frame structure, it is critical to improve the relevant technology standards and regulations and to implement prevention for to solve the problems, the main content of prevention collapse earthquake is pointed out. The result will give some guidelines to the research of collapse earthquake plan and rescue technology of existing concrete frame structure.

You might also be interested in these eBooks

Innovative Materials: Engineering and Applications

Info:

Periodical:

Advanced Materials Research (Volume 1052)

Pages:

401-405

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1052.401

Citation:

Cite this paper

Online since:

October 2014

Authors:

Xin Xiao Chen, Shu Guang Zhou*, Peng Xu

Keywords:

Collapse Earthquake Plan, Existing Concrete Frame Structure, Rescue Technology

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2014 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] Guo Zengjian, Qin Baoye. 2005, 2004 Indonesia Mw9. 0 earthquake and Chinese seismic activity [R]. edited by Special Committee for natural disasters prediction of China Geophysical Society etc., disscution of the prediction of natural disasters conference in 2005: 8-11.

[2] Hu Yuxian. Chinese Earthquake Engineering for fifty years[J]. Building structure, 1999, 23(10), 1-6.

[3] www. gov. cn. Mitigation actions in China [R]. Information Office of the State Council of the people's Republic of China, 2009, 05, Beijing.

[4] Di-Tao Niu, Xin-Xiao Chen, Shan-Hua Xu. The Advances of Studies on Seismic Performances of Existing RC Structures. Proceedings of the Seventh International Symposium on Structural Engineering for Young Experts[J]. Science Press. 2002. pp.555-559.

[5] Sommer, Anne, Mette., Nowak, Andrzej S., and Thoft-Christensen, Palle. Probability-based bridge inspection strategy[J]. Journal of Structural Engineering, Dec. 1993, 119(12). pp.3520-3536.

DOI: 10.1061/(asce)0733-9445(1993)119:12(3520)

[6] Di-Tao Niu, Xin-Xiao Chen, Wang-Xue Min．Experimental research on mechanical performance of reinforced concrete bending members restore corrosion[J]．Building structure, 2004, 34(10).

[7] Luo Fuwu etc. Analysis and prevention of fault in building structure[M]. Beijing, Qinghua university publish house, (1996).

[8] Zhang Leimin. Study on the mechanism of collapse of the structures under hazard loads [D]. Doctoral Dissertation of Tsinghua University, (1999).

[9] Du Xiuli, Ou Jinping. Evaluation model of Earthquake damage in building structure. [J]. World Earthquake Engineering, 1991, 7(3): 52-58.

[10] Tian Ying, Qian Jiaru, , Liu Fengge. Assessment prevention earthquake of existing RC frame structure based on displacement. [J] . buliding structure, 2001, 7(31): 53-56.

[11] Chen Xinxiao. Resistance earthquake property and evaluation of existing concrete frame[D]. Doctoral Dissertation of Xi'an University Of Architecture And Technology, (2011).

[12] Guide of Concrete durability design and construction [M]. Beijing: Building Industry publish house of Chinese, (2004).

[13] Lauridsen Jorn, Bjerrum John, Andersen, Niels Hutzen, et al. Creating a Bridge management system[J]. Structure Engineering International, No. 3, 1998. 216-220.

DOI: 10.2749/101686698780489117

[14] Liu Xila. Fundamental research on safety and durability of civil and hydraulic engineering[J]. Journal of Civil Engineering, 2001, 34(6): 1-7.

[15] Zhang Yu. The basic principle of concrete structure [M]. Beijing: Building Industry publish house of Chinese, No 1, (2000).

[16] Chen Zhaoyuan. Structure safety and durability and crack control of concrete[M]. Beijing: Building Industry publish house of Chinese, No 1, (2013).

[17] Wang Yayong etc．Analysis of RC structures design different performance objectives based on the benefit [J]．Journal of Civil Engineering, 2008, 56(3).

[18] Zhangyu, Jiang Lixue, Zhang Weiping, Qu Wenjun. Durability of concrete structure[M]. Shanghai. Science and Technology publish house of Shanghai, (2003).

[19] Niu Ditao. Life prediction and durability of concrete structure [S]. Beijing: Science publish house, (2003).

[20] Durability design of concrete structures. RILEM Report 14. Sarja A. E Vesikari, (1996).

[21] European Union-Brite Euram III. General guidelines for durability design and redesign[R]. Bruxelles: Brite-Euram Project, No. BE95-1347/R15, (2000).

[22] Mwafy A M, Elnashai A S, Static pushover versus dynamic collapse analysis of RC buildings, Engineering structures, 2001, 23: 407-424.

DOI: 10.1016/s0141-0296(00)00068-7

[23] Chopra A K, Goel R K, A modal pushover analysis procedure for estimating seismic demands for buildings, Earthquake Engineering & Strutural Dynamics, 2002, 31: 561-582.

DOI: 10.1002/eqe.144

[24] Ventura C E, Ding Y M, Linear and nonlinear seismic reponse of a 52-storey steel frame building, The Structural Design of Tall Buildings, 2000, 9: 25-45.

DOI: 10.1002/(sici)1099-1794(200003)9:1<25::aid-tal140>3.0.co;2-9