Structural Evaluation by FWD In Flexible Pavement

Authors

  • Sumedh Jadhav  Department of Transportation Engineering and Planning, Sandip University, Nashik, Maharashtra, India
  • Dr. P. L. Naktode  Department of Transportation Engineering and Planning, Sandip University, Nashik, Maharashtra, India

DOI:

https://doi.org//10.32628/IJSRSET2293170

Keywords:

Pavement Evaluation, FWD, Structural Evaluation, Flexible Pavement

Abstract

Pavement performance evaluation an prediction are of great importance to facilitate pavement management system. Pavement evaluations are conducted to determine functional and structural conditions of a pavement section either for purposes of routine monitoring or planned corrective action. The Falling Weight Deflectometer is a device that is used to evaluate pavement and pavement layer stiffness. It is a trailer-mounted device that operates by dropping a weight on to the pavement and measuring the resulting pavement deflections. Various computations may be performed on the deflection data to evaluate the pavement and the stiffness of it and its constituent layers. During testing, a FWD subjects the pavement surface to a load pulse which simulates the load produced by a rolling vehicle wheel. The load pulse is produced by dropping a large weight onto a "buffer" which shapes the pulse, and then transmitted to the pavement through a circular load plate. Data are acquired from various sensors for use in post-test analysis of pavement properties. Data collected from FWD can be used for determination of structural capacity of in-service pavements for analytical analysis of pavement performance, predicting layer moduli for pavement component layers, remaining life of pavements and in deciding strengthening and rehabilitation measures to be adopted for meeting the requirements. Analyses of data are being carried out using standard software as supplied by the manufacturer. Information such as load, layer types and thicknesses, range of moduli and Poisson’s ratio etc. for different layer materials would also be needed for FWD deflection data analysis. While carrying out analyses of data, it assumes material to be homogeneous, isotropic, linear elastic, weightless and semi-infinite. This report contains evaluation on flexible pavement by FWD and according to resulting data, design of overlay will be done accordingly.

References

  1. IRC: 37-2012, Guidelines for Design of Flexible Road Pavements, Indian Roads Congress, New Delhi, India, 2012.
  2. IRC:82-2015, Code of Practice for Maintenance of Bituminous Surface of Highways, Indian Roads Congress, New Delhi, 2015.
  3. IRC 115-2014, Guidelines for Structural Evaluation and Strengthening of Flexible Road Pavements Using Falling Weight Deflectometer Technique, Indian Roads Congress, New Delhi, 2014.
  4. R-81 Research Scheme, "Structural Evaluation of Pavements in Eastern India using Falling Weight Deflectometer", Final Report submitted by the Indian Institute of Technology, Kharagpur to the Ministry of Road Transport and Highways, Government of India, 2003.
  5. Boutros E. Sebaaly, Michael S. Mamlouk, and Trevor G. Davies, “ Dynamic Analysis Of Falling Weight Deflectometer Data” ,Transportation Research Board, 1986.
  6. Maoyun Li, Hao Wang , Guangji Xu, Pengyu Xie, “Finite element modeling and parametric analysis of viscoelastic and nonlinear pavement responses under dynamic FWD loading”, Science Direct, 2017.
  7. Vincent Janoo and Edel Cortez, “Pavement Evaluation In Cold Region”, American Society of Civil Engineers, 2012.       
  8. Emile Horak and Stephen Emery, “Falling Weight Deflectometer Bowl Parameters as Analysis Tool for Pavement Structural Evaluations”, Transportation Research Board, 2006.
  9. Ainalem Nega, Hamid Nikraz, Imad L. AI-Qadi, “Dynamic analysis of falling weight deflectometer”, Science Direct, 2016.
  10. Aditya Singh, Akash Sharma, Tanuj Chopra, “Analysis Of The Flexible Pavement Using Falling Weight Deflectometer For Indian National Highway Road Network”, Science Direct, 2019.
  11. Dr Bachar Al Hakim, Dr Lam Wah Cheung and Mr Robert J. Armitage, “Use of FWD Data for Prediction of Bonding Between Pavement Layers”, Research Gate, 1999.
  12. Diefenderfer, B.K. (2008). Network-Level Pavement Evaluation of Virginia’s Interstate System Using the Falling Weight Deflectometer, Report VTRC 08-R18, Virginia Transportation Research Council, Charlottesville, VA. 182
  13. Ferne, B.W. (1997). Use of Deflections at Network Level in England for Programming and Other Purposes, Cost 336 Workshop at National Laboratory for Civil Engineering, Lisbon, Portugal.
  14. Horak, E. (2008). ―Benchmarking the Structural Condition of Flexible Pavements with Deflection Bowl Parameters,‖ Journal of the South African Institution of Civil Engineering
  15. Sapkota, B. (2003). Use of FWD in the Network Level Pavement Condition Survey, Presented at the 12th Annual FWD Users Group Meeting, Wichita, KS.
  16. Ferne, B., Sinhal, R., and Fairclough, R. (2009). Structural Assessment of the English Strategic Road Network— Latest Developments, Proceedings from the Eighth International Conference on Bearing Capacity of Roads, Railways, and Airfields, Champaign, IL.
  17. Zhang, Z., Claros, G., Manuel, L., and Damnjanovic, I. (2003). ―Development of Structural Condition Index to Support Pavement Maintenance and Rehabilitation Decisions at Network Level,‖ Transportation Research Record 1827, 10–17, Transportation Research Board, Washington, DC.
  18. AASHTO. (1998). AASHTO Guide for Design of Pavement Structures: Part II— Rigid Pavement Design and Rigid Pavement Joint Design, 4th Edition, Supplement, American Association of State Highway and Transportation Officials, Washington, DC.

International Journal of Scientific Research in Science, Engineering and Technology

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Published

2022-06-30

Issue

Volume 9, Issue 3, May-June-2022

Section

Research Articles

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This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
Sumedh Jadhav, Dr. P. L. Naktode, " Structural Evaluation by FWD In Flexible Pavement, International Journal of Scientific Research in Science, Engineering and Technology(IJSRSET), Print ISSN : 2395-1990, Online ISSN : 2394-4099, Volume 9, Issue 3, pp.499-502, May-June-2022. Available at doi : https://doi.org/10.32628/IJSRSET2293170