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Earthquake Disaster Simulation of Typical Supertall Buildings

Lu, Xinzheng / Guan, Hong

Abstract The earthquake disaster simulation of tall buildings can be implemented based on the proposed high-fidelity computational models, high-performance computing algorithms, and visualization techniques developed in Chaps. 2 and 3 . In this chapter, two typical supertall buildings are taken as examples to study the earthquake-induced failure modes, collapse processes, and the corresponding collapse mechanisms. The first example is the Shanghai Tower, being the tallest building in Shanghai with a height of 632 m.

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Earthquake Disaster Simulation of Typical Supertall Buildings

Lu, Xinzheng / Guan, Hong

Abstract The earthquake disaster simulation of tall buildings can be implemented based on the proposed high-fidelity computational models, high-performance computing algorithms, and visualization techniques developed in Chaps. 2 and 3 . In this chapter, two typical supertall buildings are taken as examples to study the earthquake-induced failure modes, collapse processes, and the corresponding collapse mechanisms. The first example is the Shanghai Tower, being the tallest building in Shanghai with a height of 632 m.

Earthquake Disaster Simulation of Typical Supertall Buildings

Lu, Xinzheng / Guan, Hong

Abstract The earthquake disaster simulation of tall buildings can be implemented based on the proposed high-fidelity computational models, high-performance computing algorithms, and visualization techniques developed in Chaps. 2 and 3 . In this chapter, two typical supertall buildings are taken as examples to study the earthquake-induced failure modes, collapse processes, and the corresponding collapse mechanisms. The first example is the Shanghai Tower, being the tallest building in Shanghai with a height of 632 m.

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Title:

Earthquake Disaster Simulation of Typical Supertall Buildings

Contributors:

Lu, Xinzheng (author) / Guan, Hong (author)

Published in:

Earthquake Disaster Simulation of Civil Infrastructures ; 79-136

Publication date:

2017-01-01

Size:

58 pages

ISBN:

978-981-10-3086-4 , 978-981-10-3087-1

DOI:

https://doi.org/10.1007/978-981-10-3087-1_4

Type of media:

Article/Chapter (Book)

Type of material:

Electronic Resource

Language:

English

Keywords:

Ground Motion , Peak Ground Acceleration , Coupling Beam , Core Tube , Incremental Dynamic Analysis Engineering , Building Construction and Design , Simulation and Modeling , Natural Hazards

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