Junxin Wang,∗ Weicheng Wang,∗ Feixiong Yang,∗∗ and Lei Chen∗∗∗


  1. [1] B.C. Chen, View and review of arch bridge technology, Journal of Fuzhou University (Natural Science Edition), 37(1), 2009, 94–106.
  2. [2] F.Q. Guo and Z.W. Yu, Influencing factors of ultimate bearing capacity of in-service long span stone arch bridge, Journal of Railway Science and Engineering, 9(2), 2012, 14–17.
  3. [3] X.W. Li and X. Yuan, Analysis of deterioration mechanism and research of comprehensive strengthening techniques for solid spandrel circular arch bridges, World Bridges, 4, 2007, 66–69.
  4. [4] L.L. Zhang, S.M. Liu, L.Q. Wu, and J.T. Zhou, The safety assessment model of stone arch bridge based on fuzzy synthetic evaluation, Journal of Civil, Architectural & Environmental Engineering, 33(S1), 2011, 194–198.
  5. [5] S.M. Liu and L.Y. Zhang, Optimizing method for strengthening and loading program of masonry arch bridge, Bridge Construction, 43(6), 2013, 88–93.
  6. [6] Q.F. Deng, The study on concrete bridge strengthening and reconstruction technology, Shanxi Science & Technology of Communications, 2, 2006, 43–45.
  7. [7] B.H. Liao and G.D. Wang, Research and application of new methods for arch bridge reinforcement, Highway, 10, 2006, 34–37.
  8. [8] L.C. Zhou, Y.F. Zheng, and F.M. Liu, Research on reinforcement technology of upper structure of stone arch bridge, Railway Engineering, 8, 2010, 36–38.
  9. [9] L. Garmendia, J.T. San-José, D. Garc´ıa, and P. Larrinaga, Rehabilitation of masonry arches with compatible advanced composite material, Construction and Building Materials, 25(12), 2011, 4374–4385.
  10. [10] Y. Zhou, Discussion on reinforcement design and construction method of stone arch bridge, Shanxi Architecture, 41(2), 2015, 155–156.
  11. [11] L.J. Liu, Y. Qin, Y. Zhang, and H.Z. Gao, Effects of re-force on steel-strengthened reinforced beam’s capacity, Journal of Chang’an University (Natural Science Edition), 31(1), 2011, 46–50.
  12. [12] Z.W. Yu, Reinforcement method of in-service stone arch bridge with steel-concrete composite structure, Journal of Railway Science and Engineering, 9(1), 2012, 1–4.
  13. [13] S.H. Chen, M.Y. Yang, and H.Y. Pan, Application technology of hollow stone arch bridge reinforcement by composite main 9 arch, Western China Communications Science & Technology, 4, 2015, 52–54.
  14. [14] J.T. Zhou, Z.G. Li, and S.M. Liu, Reinforcement boundary of steel in the reinforcing layer of RC beam under the secondary Load, Journal of Chongqing Jiaotong University (Natural Science), 34(1), 2015, 30–33.
  15. [15] Z.L. Wei, Q.H. Pu, and Z. Shi, Research on rational calculation model of solid-type stone arch bridge based on finite element analysis, Railway Engineering, 9, 2010, 9–12.
  16. [16] Y.Z. Wu, Discussion on reinforcement of stone arch bridge by wrapping main arch with reinforced concrete, Road Machinery & Construction Mechanization, 33(8), 2016, 91–94.
  17. [17] L. Garmendia, J.T. San-José, D. Garc´ıa, P. Larrinaga, and J. D´ıez, Innovative strengthening solution based on textile reinforced mortar for stone masonry arches, Advanced Materials Research, 133–134, 2010, 849–854.
  18. [18] Z.M. Zhao, F.J. Chen, J.Y. Chai, Z.J. Wang, and H.L. Zhou, Analysis and evaluation on strengthening and widening of a catenary stone arch bridge with solid spandrels, Advanced Materials Research, 838–841, 2013, 1042–1047.
  19. [19] J. Zhang and Y.J. Qian, Theoretical analysis of normal section bearing capacity of stone main arch ring strengthened by reinforced concrete, Journal of Highway and Transportation Research and Development, 25(6), 2008, 76–80.
  20. [20] H.D. Huang, Z.F. Xiang, J. Liu, and X.F. Lin, Study of internal force distribution method of co-section for arch bridges strengthening, Journal of Chongqing Jiaotong University (Natural Science), 2, 2008, 200–203.
  21. [21] C. Sun, M. Liu, B.C. Chen, and Q.X. Wu, Research on ultimate load-carrying capacity of composite arch ring of stone arch bridge reinforced by concrete arch-lifted method, Journal of Fuzhou University (Natural Science Edition), 40(3), 2012, 376–382.
  22. [22] C. Zhu, J.T. Zhou, S.M. Liu, and Z.G. Wu, Study on strain slope of co-section for bearing capacity of the strengthened masonry arch bridges, Science Technology and Engineering, 16(10), 2016, 56–62.
  23. [23] J.T. Zhou, Y. Hao, G.J. Liu, et al., Reasonable reinforcement process and internal force analysis of stone arch bridge, Highway, 4, 2005, 33–35.
  24. [24] Q.Y. Liu, J.T. Zhou, L. Wang, and X.L. Zhu, Minimum thickness of reinforcing layer of stone arch bridge strengthened by section enlargement method, Journal of Chongqing Jiaotong University (Natural Science), 27(1), 2008, 20–23.
  25. [25] C. Huang, S.M. Liu, and J.T. Zhou, Reinforcement effect evaluation of arch bridge based on co-section analysis method, Journal of Chongqing Jiaotong University (Natural Science), 31(3), 2012, 373–376.

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