Journal of Earthquake Science and Soil Dynamic Engineering

The investigation of adaptable asphalt when overlay, to examine the remaining life left over for the current asphalt and to get the trademark values like layer moduli of individual layers of the asphalt, properly taking into account the elements affecting the presentation, for example, subgrade strength, thickness and nature of every one of the asphalt layers, waste circumstances and asphalt surface temperature by utilizing Falling Weight Deflectometer. To determine the modulus of versatility of the existing adaptable asphalt, back figuring must be performed. For the contribution of the scope of modulus of flexibility of the bituminous, granular, and subgrade layers, the interaction of back figuring required inside and outside field insight. The redirection results are used to discover aversion bowl limit, for instance, Surface Curve File (SCI), Center layer List (MLI) and Lower layer record (LLI). These SCI, MLI, and LLI lists are useful for anticipating the underlying asphalt exhibition. layers and furthermore valuable to recognize homogeneous segment for condition evaluation.

Kumar, R. S. (2014). Pavement Evaluation and Maintenance Management System. Universities Press.

IRC: 81-1997 Guidelines for Strengthening of Flexible pavement using Bankelman Beam Deflection Technique. (1st Revision)”, Indian Roads Congress, New Delhi

Pandey, B. B & Reddy K. S.(2003). Research Report on Structural Evaluation of Pavements in Eastern India using Falling Weight Deflectometer Road Research Scheme ( R-81), IIT Kharagpur. It is published before IRC, same is available on IRC site.

IRC: 115-2014 Guidelines for Structural Evaluation of Flexible Road Pavement Using Falling Weight Deflectometer.

Carvalho, R., Stubstad, R., Briggs, R., Selezneva, O., Mustafa, E., & Ramachandran, A. (2012). Simplified techniques for evaluation and interpretation of pavement deflections for network-level analysis (No. FHWA-HRT-12-023). United States. Federal Highway Administration. Office of Infrastructure Research and Development.

Chang, J. R., Lin, J. D., Chung, W. C., & Chen, D. H. (2002). Evaluating the structural strength of flexible pavements in Taiwan using the falling weight deflectometer. International Journal of Pavement

Engineering, 3(3), 131-141.

Roque, R., Ruth, B. E., & Sedwick, S. C. (1998, July). Limitations of back calculation and improved methods for pavement layer moduli predictions. In Proceedings of the 5th International Conference on the Bearing Capacity of Roads and Airfields, Norwegian University of Science and Technology, Trondheim, Norway (pp. 6-8).

Thompson, M. R. (1989). ILLI-PAVE based NDT analysis procedures. In Nondestructive testing of pavements and back calculation of moduli. ASTM International.

Molenaar, A. A. A., & van Gurp, C. A. (1982). A Pavement Management System for Provincial Road in the Netherlands. In Proceedings of 5th International Conference on Structural Design of Asphalt Pavements (Vol. 1, pp. 485-499).

Wimsatt, A. J. (1999). Direct analysis methods for falling weight deflectometer deflection data. Transportation research record, 1655(1), 135-144.