Research interests of Dr. Sushanta Chakraborty includes modal testing of actual as built civil infrastructure, finite element modal updating, condition assessment and health monitoring and damage detection. He is also interested in material property identification of layered FRP type of structures using Inverse problems.
He is actively involved with commissioning of six degrees of freedom multi-axis shake table for real time earthquake analysis in the Department.
Research is also carried out on human induced vibration of suspension and footbridges
Dr. Chakraborty was actively involved in actual modal testing of massive civil infrastructure like car parks and balanced cantilever bridges in United Kingdom and Singapore during Post Doctoral Research and established his own laboratory facility at IIT Kharagpur later
Results are mainly communicated to International Journals for publication
Estimation of Layerwise In-Plane Elastic Parameters of Stiffened Composite Plates using Model Updating Techniques by S. Chakraborty and M. Mukhopadhyay AIAA 38(9) 1716-1724 (2000)
Estimation of In-Plane Elastic Parameters and Stiffener Geometry of Stiffened Isotropic Plates by S. Chakraborty and M. Mukhopadhyay Journal of Sound and Vibration 231(1) 99-124 (2000)
(9) Critical factors influencing the dynamic characteristics of FRP bridges- a parametric study by Althaf M Mohammed and S Chakraborty Int. Jr. of Reinforced Plastics and Composites 33 223 - 228 (2013)
An Initial Experimental Investigation of into the Change in Magnetic Induction of Terfenol-D Rod due to External Stress by S. Chakraborty and G. R. Tomlinson Smart Materials and Structures 12 763-768 (2003)
Investigation of Concrete in Pier Cap of Pier P-142 in the New Garia-Airport Corridor of Kolkata Metro Railway Line; Proposal of Retrofitting Scheme for the Pier Cap, and Vetting the Design thereof AFCONS INFRASTRUCTURE LTD.
Area of Research: Ocean Structural Engineering
Area of Research: Structural Damage Detection from Vibration Responses
Area of Research: Concrete Behaviour
Area of Research: Damped Dynamic Response of Structures
Area of Research: Concrete Technology