SAFETY ANALYSIS OF HOLLOW PLATE GIRDER BRIDGE BASED ON ROUTINE DETECTION INDEXES, 1-10.

Yingxin Zhou,∗ Zhouxiang Chen,∗∗ Zhengfu Qian,∗∗∗ Jianwei Hou,∗∗∗ and Dejun Hu∗∗∗

References

1. [1] Y.P. Wang, Expert system for comprehensive assessment tobridge service property using Fuzzy theory, Journal of NortheastForestry University, 7(1), 1996, 88–91.9
2. [2] J.X. Yang, Study on stress performance of hinge joint inprefabricated hollow slab bridge, Master Dissertation, InnerMongolia University of Technology, Hohhot, Mongolia, 2009.
3. [3] Y.C. Chen, Q.X. Wu, and B.C. Chen, Failure mode of hingejoint in assembly voided slab bridge by finite element analysis,Journal of Engineering Mechanics, 31(S1), 2014, 51–58.
4. [4] J.S. Ye, J.S. Liu, B. Yu, et al., Experimental study on shearperformance of hinge joint of concrete hollow slab, Journalof Highway and Transportation Research and Development,30(6), 2013, 33–39.
5. [5] Y.F. Zhong, Experimental study on hollow slab girder hingejoint model, Master Dissertation, Chang’an University, Xi’an,Shanxi, 2008.
6. [6] T.C. Wang, H. Xu, and S.W. Zhao, Experimental study onbridge slab structure optimization, Journal of Central SouthHighway Engineering, 31(3), 2006, 45–48.
7. [7] Y.L. Leng, J.Q. Zhang, S.S. Cheng, et al., Numerical analysison single plate loading effect of precast hollow plate girderbridge, Journal of Highway & Transportation Research &Development, 30(5), 2013, 63–66+73.
8. [8] J. Wei, P. Li, Y. Xu, et al., Influencing factor analysis oncoordinated working performance of hinge joint in hollow plate,China Journal of Highway and Transport, 24(2), 2011, 29–33.
9. [9] J. Wei and P. Li, Experimental study on durability performanceof hollow plate hinged joints, Journal of Huazhong Universityof Science and Technology (Nature Science Edition), 40(1),2012, 72–76.
10. [10] A.M. Yuan, Y.F. Sha, Y. He, et al., Experimental studieson the ultimate flexural capacity for prestressed concretehollow beams with longitudinal cracks in webs, China CivilEngineering Journal, 48(S1), 2015, 22–28.
11. [11] X.X. Tang, Y.Y. Yin, W. Guo, et al., Experimental studyon fatigue performance of hinge joint of hinged slab bridge,Journal of Water Resources and Architectural Engineering,13(1), 2015, 6–10.
12. [12] Q. Wang, Q.X. Wu, and B.C. Chen, Experimental study onfailure mode of hinge joint of prefabricated hollow slab, Journalof Engineering Mechanics, 31(S1), 2014, 115–120.
13. [13] H.B. Yi, C.X. Li, and L. Dai, Experimental study on the shearperformance of shallow hinge joints for prefabricated hollowslab bridges, Advances in Civil Engineering, 2018, 2018, 1–8.
14. [14] S. Li, X. Zuo, Z.Y. Li, et al., Applying deep learning tocontinuous bridge deflection detected by fiber optic gyroscopefor damage detection, Sensors, 20(3), 2020, 1–15.
15. [15] JTG H11-2004, Code for maintenance of highway bridges andculvers, 2004.
16. [16] L.Y. Lin, Damage assessment and mechanical behavior study oncracked prestressed concrete girder bridge, Master Dissertation,Chang’an University, Xi’an, Shanxi, 2008.
17. [17] JTG D62-2012, Code for design of highway reinforced concreteand prestressed concrete bridges and culverts, 2012.
18. [18] G.N. Xu, Y.Z. Wang, S.M. Wang, et al., Deformation forecast ofmain girder enhanced by stay cable system with unequal intervalgrey model and residual composite correction, MathematicalProblems in Engineering, 2018, 2018, 1–11.

Important Links:

• Abstract
• DOI: 10.2316/J.2021.206-0532
• From Journal (206) International Journal of Robotics and Automation - 2021

Go Back