Your search keyword '"Gao-xin Wang"' showing total 3 results

1. Full-Range S-N Fatigue-Life Evaluation Method for Welded Bridge Structures Considering Hot-Spot and Welding Residual Stress.

Author

You-liang Ding, Ai-qun Li, Yong-sheng Song, Bao-ya Cao, and Gao-xin Wang

Subjects

CONCRETE fatigue, RESIDUAL stresses, GEOLOGIC hot spots

Abstract

Fatigue cracking is crucial issue for welded steel bridges that endure repeated vehicle loads. With typical fatigue-life evaluation methods, it is difficult to consider the influence of low stress amplitude. Based on existing full-range S-N curves and their formulas for base metal, a unified fatigue-life evaluation method is recommended for welded joints. The basis for construction of full-range S-N curves is to obtain the welding residual stress and stress concentration factor. In this paper, rib-to-deck welded joints are introduced as examples to demonstrate the detailed steps of a fatigue-life evaluation procedure. From the analysis of welding residual stress, it can be concluded that residual stress is influenced by the geometric dimensions of the composite members.With an increase in the geometric dimensions, the level of residual stress is increased. In addition, static-load experiments were conducted to obtain the stress concentration factor. A hot-spot full-range S-N curve was then obtained for rib-to-deck welded joints by calibrating the formula fromsmall quantities of fatigue experiments. An actual bridge installed with a structural health monitoring system (SHMS) was used as a case study to compare the recommended model with typical fatigue codes. The comparison results indicate that the recommended model is more conservative than typical fatigue codes. [ABSTRACT FROM AUTHOR]

Published

2016

2. Fatigue-Life Evaluation of a High-Speed Railway Bridge with an Orthotropic Steel Deck Integrating Multiple Factors.

Author

Yong Sheng Song, You Liang Ding, Gao Xin Wang, and Ai Qun Li

Subjects

RAILROADS, IRON & steel bridges, RAILROAD bridges, BRIDGE joints, CRACKING of welded joints, STRESS concentration

Abstract

The driving security of trains at high speeds is among the pivotal issues significantly affected by the smoothness of rail lines. For high-speed railway steel bridges, the fatigue cracking of typical positions under the rail lines will reduce the stiffness of the deck plate, inducing the smoothing of the rail lines. In this paper, a new theoretical approach is proposed that integrates the fatigue assessment of a typical welded joint for high-speed railway steel bridges in service. Based on the strain history data recorded by a structural health monitoring system, the theoretical approach includes various factors, including stress concentration, environmental corrosion, and train flow. Upon application in an actual high-speed railway bridge with an orthotropic steel deck, the approach was used to conduct determinative and reliable fatigue-life evaluation of the bridge. A static-load experiment was conducted to obtain the stress distribution around the weld and the difference in stress between the positions of the weld and strain gauge. The effect of environmental corrosion integrated two aspects: increased stress and reduced fatigue resistance. Without consideration of train-weight growth, in conclusion, the fatigue life of a typical welded joint will be infinite even if the train flow grows constantly. In addition, the fatigue life of typical welded joints, determinative or reliable, may be less than the designed service period when the growth rate of the train weight reaches 5%. [ABSTRACT FROM AUTHOR]

Published

2016

3. Detection and Location of the Degraded Bearings Based on Monitoring the Longitudinal Expansion Performance of the Main Girder of the Dashengguan Yangtze Bridge.

Author

Gao-Xin Wang, You-Liang Ding, Yong-Sheng Song, Lai-Yi Wu, Qing Yue, and Guo-Hui Mao

Subjects

STEEL girders, RUBBER bearings, STRUCTURAL health monitoring, BRIDGES, DISPLACEMENT (Mechanics), REGRESSION analysis, POLYNOMIALS

Abstract

Temperature field data from the steel truss arch girder and longitudinal displacement data from six groups of rubber bearings were collected by the structural health monitoring system for the Dashengguan Yangtze Bridge. By using long-term monitoring data, two correlations are investigated: the linear correlation between the longitudinal displacement and the temperature field (including uniform temperature and temperature gradient); and the linear correlation of the longitudinal displacements in different locations. A multivariate linear regression equation is used to model the first correlation, and a Lagrange polynomial interpolation is used to model the second correlation. The final mathematical models, representing the healthy state of the bearings, can be applied to simulate the longitudinal displacements of the main girder. Furthermore, the change regularity of longitudinal displacements for the degraded rubber bearings is revealed taking advantage of a hysteretic model and presumed envelope curves of frictions caused by bearing degradation. A method of detection and location for the degraded bearings is proposed in four detailed steps, and the numerical results demonstrate that this method is effective. [ABSTRACT FROM AUTHOR]

Published

2016