Title :
Experimental study on wind-resistance capability of long span continuous rigid-frame parallel bridge with high-rise piers
Author :
Wang, Jie ; Liu, Jian-xin
Abstract :
Taken the 90+3×160+90m prestressed concrete continuous rigid frame bridge as the research object, the wind pressure distribution in different states of rigid bridge cantilever construction, characteristics of aerostatic coefficient windward and leeward side of the bridge and the wind-induced vibration response under different wind direction of the twin deck bridge were studied by pressure-measurement, sectional and aeroelastic model wind tunnel test. Then combined with test results and numerical calculations, the various stages of the pressure distribution and wind loads were analyzed. At last, the wind load internal forces of the longest double-cantilever construction state were gotten. This data will provide a strong reference for the continuous rigid frame bridge design.
Keywords :
aerodynamics; bridges (structures); cantilevers; design engineering; elasticity; mechanical testing; numerical analysis; pressure measurement; reinforced concrete; shear modulus; vibrations; wind tunnels; aeroelastic model wind tunnel test; aerostatic coefficient leeward side; aerostatic coefficient windward side; high-rise piers; long span continuous rigid frame parallel bridge; longest double-cantilever construction state; pressure distribution; pressure measurement; prestressed concrete; rigid bridge cantilever construction; twin deck bridge; wind induced vibration response; wind load internal forces; wind pressure distribution; wind resistance capability; Architecture; Bridges; Civil engineering; Force; Laboratories; Presses; Vibrations; continuous rigid frame bridge; parallel bridge; wind tunnel tests; wind-resistance capability;
Conference_Titel :
Remote Sensing, Environment and Transportation Engineering (RSETE), 2011 International Conference on
Conference_Location :
Nanjing
Print_ISBN :
978-1-4244-9172-8
DOI :
10.1109/RSETE.2011.5965430
