Dipti Ranjan Biswal
Dr. Dipti Ranjan Biswal is working as an Associate professor in School of Civil Engineering, KIIT deemed to be university. Dr. Biswal was graduated from Indira Gandhi Institute of Technology (IGIT), Sarang under Biju Patnaik University of Technology in Civil Engineering. He earned MTech degree in Soil Mechanics and Foundation Engineering from National Institute of Technology Rourkela in 2006. After MTech, he joined MECON Ltd Ranchi and was involved in the structural design and detailed engineering of various civil engineering structures of integrated steel plant, power plant and also residential townships. After four years of service in MECON, he moved to M N Dastur & Company Pvt Ltd as Senior Engineer and was involved in detailed engineering including planning, estimating and coordinating with different departments and clients. After 7 years of industrial experience he carried out research in IIT Bhubaneswar as a research scholar in the area of Transportation Geotechnics and completed PhD in 2018. He has published a number of research papers in international journals and conferences and is currently actively involved in teaching, research and consultancy works.
Biswal, D. R., Sahoo U. C. and Dash S. R. (2016). Characterization of granular lateritic soils as pavement material. Transportation Geotechnics, Elsevier, 6, 108 122.
Biswal, D. R., Sahoo, U. C., & Dash, S. R. (2018). Durability and shrinkage studies of cement stabilised granular lateritic soils. International Journal of Pavement Engineering, DOI. 10.1080/10298436.2018.1433830.
Biswal, D. R., Sahoo, U. C., & Dash, S. R. (2018). Non Destructive Strength and Stiffness Evaluation of Cement Stabilised Granular Lateritic Soils. Road Materials and Pavement Design, DOI: 10.1080/14680629.2018.1511458.
Biswal, D. R., Sahoo, U. C., & Dash, S. R. (2018). Mechanical characterisation of cement stabilised granular lateritic soils. Road Materials and Pavement Design, DOI. 10.1080/14680629.2018.1545687.
Biswal, D. R., Sahoo, U. C., & Dash, S. R. (2019). Structural Response of an inverted pavement with stabilised base by Numerical approach considering isotropic and anisotropic properties of unbound layers. Road Materials and Pavement Design, DOI. 10.1080/14680629.2019.1595701
Biswal, D. R., Sahoo, U. C., & Dash, S. R. (2019). Fatigue properties of cement stabilised granular lateritic soils. Journal of Transportation Engineering, Part-B: Pavements, ASCE (Accepted).
Biswal, D. R., Sahoo, U. C., & Dash, S. R., (2018). Numerical Analysis of an Inverted Pavement with Cemented Base, International Conference on Pavements and Computational Approaches (ICOPAC-2018), November 16 -17, 2018, CRRI, New Delhi.
Biswal, D. R., Sahoo U. C. and Dash S. R., (2018). Evaluation of stiffness of cement stabilized granular lateritic soils using ultrasonic pulse velocity (UPV) test, 4th International Conference of Roads on Transport Infrastructure-Developing Infrastructure, Pretoria, South Africa, July 9-10.
Biswal, D. R., Dash, S. R. and Sahoo, U. C. (2017). Strength and Stiffness Study of Cement Stabilized Granular Lateritic Soils for use in Rural Roads. Soil Testing, Soil Stability and Ground Improvement, Proceedings of the 1st GeoMEast Int. Congress and Exhibition on Sustainable Civil Infrastructure, July 15-19, Egypt, 320-336.
Beriha B., Biswal D. R., Sahoo U. C. (2019) Effect of Wet-Dry Cycles on Mechanical Strength Properties of Cement Stabilized Granular Lateritic Soil. In: Shehata H., Poulos H. (eds) Latest Thoughts on Ground Improvement Techniques. GeoMEast 2018. Sustainable Civil Infrastructures. Springer, Cham.