Study on Pretensioning Force of Wrapping Wires for Suspension Bridge Cables

2012 ◽  
Vol 446-449 ◽  
pp. 1283-1288
Author(s):  
Shuang Zhang ◽  
Quan Sheng Sun
Keyword(s):  
Suspension Bridge ◽  
Suspension Bridge Cables

Designing and Validating Parallel Wire Suspension Bridge Wire Strands for Neutron Diffraction Stress Mapping

2017 ◽  
Vol 905 ◽  
pp. 123-130
Author(s):  
Adrian Brügger ◽  
Seung Yub Lee ◽  
İsmail Cevdet Noyan ◽  
Raimondo Betti
Keyword(s):  
Neutron Diffraction ◽  
Steel Wire ◽  
National Laboratory ◽  
Suspension Bridge ◽  
Galvanized Steel ◽  
Element Analysis ◽  
Parallel Wire ◽  
Oak Ridge ◽  
Contact Points ◽  
Suspension Bridge Cables

Suspension-bridge cables are constructed from strands of galvanized steel wire. They are failure-critical structural members, so a fundamental understanding of their mechanics is imminently important in quantifying suspension bridge safety. The load-carrying capabilities of such strands after local wire failures have been the subject of many theoretical studies utilizing analytical equations and finite-element analysis. Little experimental data, however, exists to validate these models.Over the past five years we have developed a methodology for measuring stress/strain transfer within parallel wire strands of suspension bridge cables using neutron diffraction [1,2]. In this paper we describe the design and verification of parallel cable strands used in our studies. We describe the neutron diffraction strain measurements performed on standard 7-wire and expanded 19-wire models in various configurations at both the Los Alamos National Laboratory Spectrometer for Materials Research at Temperature and Stress (LANL SMARTS) and at the Oak Ridge National Laboratory VULCAN Engineering Materials Diffractometer (ORNL VULCAN). Particular attention is placed on the challenges of aligning and measuring multibody systems with high strain gradients at body-to-body contact points.

Evaluating the Strength of Suspension Bridge Cables

2006 ◽  
Vol 91 (2) ◽  
pp. 9-16
Author(s):  
Yuwei Shi ◽  
Raimondo Betti ◽  
George Deodatis
Keyword(s):  
Suspension Bridge ◽  
Suspension Bridge Cables

scholarly journals A study on anti-corrosion capacity of dry air injection system of suspension bridge cables.

2001 ◽  
pp. 145-154 ◽  
Author(s):  
Makoto KITAGAWA ◽  
Kazuhiko FURUYA ◽  
Shun-ichi NAKAMURA ◽  
Keita SUZUMURA
Keyword(s):  
Suspension Bridge ◽  
Air Injection ◽  
Injection System ◽  
Dry Air ◽  
Suspension Bridge Cables

Study on Pretensioning Force of Wrapping Wires for Suspension Bridge Cables

2012 ◽  
Vol 446-449 ◽  
pp. 1283-1288
Author(s):  
Shuang Zhang ◽  
Quan Sheng Sun
Keyword(s):  
Suspension Bridge ◽  
Initial Tension ◽  
Wire Tension ◽  
Main Cable ◽  
Residual Tension ◽  
Dead Loading ◽  
Suspension Bridge Cables ◽  
At Home

The question of the pretensioning force of the wrapping wires for a suspension bridge is one of the important subjects. It could prevent the main cable from eroding by air or chemicals. And it must have some loss under the influence of dead loading, each mobile load and environment[1]. Now, the research of wrapping wire of the main cable is not much at home and abroad. And wrapping wire tension is mainly obtained depending on engineering experience. This paper has an experiment about the wrapping wire of Yangmingtan Bridge in Harbin to draw conclusions that wrapping wires tension which is 2m far from the cable clips is reduced extensively, more than 80%. But the residual tension, 8m from the cable clips, is about 35% of the initial tension. In addition, the wrapping wires tension which is about 93cm far from pre-wrapped wire-loops remains stable. Finally, starting from calculation theory, the paper puts forward that the wrapping wire tension should be 2.0kN.

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