Manuscript Number : IJSRCE204116

Analysis of Rubberized Concrete Deck Slab for different Bridge Structures as Per IRC Loadings : A Review

Authors(3) :-K. Aditya, K. Divya Kotecha, Yogesh Singh

Bridge is an important structure required for the transportation network. Now a day with the fast innovation in technology the conventional bridges have been replaced by the cost effective structured system. For analysis and design of these bridges the most efficient methods are available. Different methods which can be used for analysis and design are AASHTO, Finite element method, Grillage and Finite strip method.In this study we are presenting literature survey of papers related to utilization of advances in bridge designing and materials.

Authors and Affiliations

K. Aditya
P. G. Scholar, Department of Civil Engineer, R.S.R. College of Engineering and Technology, Bhilai, Chhattisgarh, India
K. Divya Kotecha
Assistant Professor, Department of Civil Engineer, R.S.R. College of Engineering and Technology, Bhilai, Chhattisgarh, India
Yogesh Singh
Professor and Head, Department of Civil Engineer, R.S.R. College of Engineering and Technology, Bhilai, Chhattisgarh, India

Staad Beava, Irc, Vehicle, Bridge, Stresses, Deflection, Rubberized Concrete.

  1. Guohui Cao, Karthiga P, Elavenil S, Kmp D. A Comparison of Road Over Bridge And Rail Over Bridge. The IUP Journal of structural engineering. 2018.
  2. Neelandharan, Shetty RS, Prashanth MH, Channappa TM, Ravi Kumar CM. Information vibration suppression of steel truss railway bridge using tuned mass dampers.
  3. Luke J. Xueyi L, Pingrui Z, Feng DM. Advances in design theories of high-speed railway ballastless tracks. Key Laboratory of High-Speed Railway Engineering, Southwest Jiaotong University, Chengdu, China. 2017
  4. Alaa Hussain wakar S. Chee luo, Progress in high-speed train technology around the world. Transport Bureau, The Ministry of Railways of China, Beijing, China. Traction Power State Key Laboratory, Southwest Jiaotong University, Chengdu 610031, China a. Astaneh A. Progressive Collapse of Steel Truss Bridges, The Case of I-35w Collapse, Asla a University of California, Berkeley, USA 2017.
  5. Bridge rules (Railway Board). Rules specifying the loads for design of super structure and substructure of bridges and for assessment of the strength of existing bridges.
  6. Indian railway standards-Steel Bridge Code indian railway standard code of practice for the design of steel or wrought iron bridges carrying rail,road or pedestrian traffic.
  7. IRC: 6-2014 Section –II (Loads And Stesses) standard specifications and code of practice for road bridges.
  8. IRC: 21 Section –III Cement Concrete (plain and reinforced) standard specifications and code of practicefor road bridges.
  9. Xiaoyan Lei1 and Bin Zhang, Analysis of Dynamic Behavior for Slab Track of High-Speed Railway Based on Vehicle and Track Element, Journal of transportation engineering © ASCE / April 2011 / 227.
  10. M.J.M.M. Steenbergen_, A.V. Metrikine, C. Esveld, Assessment of design parameters of a slab track railway system, Journal of Sound and Vibration 306 (2007) 361–371.
  11. David N. Bilow, P.E., S.E. and Gene M. Randich, P.E., SLAB TRACK FOR THE NEXT 100 YEARS, Portland Cement Association, Skokie, IL.
  12. Xueyi LIU*, Pingrui ZHAO, Feng DAI, Advances in design theories of high-speed railway ballastless tracks, Volume 19, Number 3, September 2011.
  13. Coenraad ESVELD and Valéri MARKINE , SLAB TRACK DESIGN FOR HIGH-SPEED
  14. IRS Concrete Bridge Code : 1997 Code of practice for plain, Reinforced & prestressed concrete for general bridge construction
  15. IRS Bridge Rules : 2008 Rules specifying the loads for Design of super-structure and sub-structure of Bridges and for assessment of the strength of Existing bridges
  16. IRS Bridge Manual : 1998
  17. EN 1991-2 Euro code for traffic loads on bridges
  18. IS-456:2000 Code of practice for plain and reinforced concrete.
  19. IS-875 Code of practice for design loads.
  20. IS-432 Part 1-1982 Mild steel and medium tensile steel bars.
  21. IS-1786:2008 High strength deformed steel bars and wires for concrete reinforcement - Specification.
  22. IS-1893:2002 Criteria for earthquake resistant design of structures.
  23. Coenraad Esveld, MODERN RAILWAY TRACK, MRT - Productions, 1989.
  24. J.S.Mundrey, RAILWAY TRACK ENGINEERING.
  25. Farhey, D.N. Structural Performances of Bridge Materials in the U.S. National Bridge InventorY. In Structural Engineering International; International Association for Bridge and Structural Engineering (IABSE): Zurich, Switzerland, 2018.
  26. T.Pramod Kumar & G.Phani Ram, Reliability of Visual Inspection for Highway Bridges, Volume I: Final Report. FHWA-RD-01-020; 2001. Available online: www.fhwa.dot.gov/publication research/nde/pdfs/01020a.pdf (accessed on 5 February 2015).

Publication Details

Published in : Volume 4 | Issue 1 | January-February 2020
Date of Publication : 2020-02-20
License:  This work is licensed under a Creative Commons Attribution 4.0 International License.
Page(s) : 63-69
Manuscript Number : IJSRCE204116
Publisher : Technoscience Academy

ISSN : 2456-6667

Cite This Article :

K. Aditya, K. Divya Kotecha, Yogesh Singh, "Analysis of Rubberized Concrete Deck Slab for different Bridge Structures as Per IRC Loadings : A Review", International Journal of Scientific Research in Civil Engineering (IJSRCE), ISSN : 2456-6667, Volume 4, Issue 1, pp.63-69, January-February.2020
URL : https://ijsrce.com/IJSRCE204116

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