Abstract

Buckling and postbuckling behavior of prestressed arches that make up the skeleton of a large‐size clear‐span prestressed dome under self‐weight are studied using centrifuge model testing and a nonlinear finite‐element analysis. Earth's gravity field, the main agent of instability for large‐size clear‐span enclosures, is scaled by means of centrifugal force. Prestressed arch models were attached to the swinging platform of the centrifuge, and their self‐weight was increased by accelerating the centrifuge. Deformations and buckling of the models were observed and recorded continuously via a video‐tape camera inside the centrifuge. The experimental result confirms the validity of the finite‐element analysis and suggests that the centrifuge is an effective tool to study the stability of large‐size clear‐span enclosures.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Physical analysis on improving the recovery accuracy of the Earth's gravity field by a combination of satellite observations in along-track and cross-track directions
Wei Zheng ... Min Zhong
Chinese Physics B | VOL. 23
Wei Zheng, et. al.Wei Zheng ... Min Zhong
10 Aug 2014
Mapping the earth's magnetic and gravity fields from space: Current status and future prospects
Mark Settle ... James V Taranik
Advances in Space Research | VOL. 3
Mark Settle, et. al.Mark Settle ... James V Taranik
01 Jan 1982
"Introduction to Geodesy: The History and Concept of Modern Geodesy" by James R. Smith
T A Herring
Seismological Research Letters | VOL. 69
T A HerringT A Herring
01 Jan 1998
New Rapid Evaluation for Long-Term Behavior in Deep Geological Repository by Geotechnical Centrifuge—Part 2: Numerical Simulation of Model Tests in Isothermal Condition
Masataka Sawada ... Tetsuji Okada
Rock Mechanics and Rock Engineering | VOL. 50
Masataka Sawada, et. al.Masataka Sawada ... Tetsuji Okada
02 Aug 2016
View more papers

More From: Journal of Engineering Mechanics

Paper Title
Journal
Date
Author
A Whole-Rate-Region Fatigue Crack Growth Model Incorporating Nonlinear Rate Evolution Characteristics Based on a Peridynamic Approach
He Zhang ... Linjie Yao
Journal of Engineering Mechanics | VOL. 150
He Zhang, et. al.He Zhang ... Linjie Yao
01 Dec 2024
Efficient Method for Simulating Nonstationary and Non-Gaussian Stochastic Ground Motion with Known Time-Varying Statistical Moments
Xiangqian Sheng ... Yuan Tian
Journal of Engineering Mechanics | VOL. 150
Xiangqian Sheng, et. al.Xiangqian Sheng ... Yuan Tian
01 Dec 2024
Buckling of Plates with Arbitrary Geometric Configurations via the Discrete Ritz Method
Lei Duan ... Yongjie Zhang
Journal of Engineering Mechanics | VOL. 150
Lei Duan, et. al.Lei Duan ... Yongjie Zhang
01 Dec 2024
Analysis of Wave Motion and Deformation in a Nonlocal Micropolar Poro-Thermoelastic Plate with Three Memory-Dependent Theories
Sunil Kumar ... Geeta Partap
Journal of Engineering Mechanics | VOL. -
Sunil Kumar, et. al.Sunil Kumar ... Geeta Partap
01 Dec 2024
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.