E-grāmata: Advances in Shock Interactions: Proceedings of the 24th International Shock Interaction Symposium, SIS-2022, 17-20 October, Chennai, India

Study of Mach reflection in inviscid flows.- An Experimental
Investigation of Shock Behaviour of Glass and Basalt Fiber Composite
Laminates Using Shock Tube.- Numerical investigation of the von Neumann
paradox for weak shocks using a higher order discontinuous Galerkin method
and overset grids.- Numerical Investigations of the Effect of Unsteady
Generator Pressure on Supersonic Ejector Performance.- Temperature
Calibration of a Single Pulse Shock Tube at Low Pressures Using Unimolecular
Decomposition of Cyclohexene.- Detached eddy simulations of an incident
shock-induced Separation.- Blast Wave Mitigation in Novel Bio-inspired
Inhomogeneous Structures.- Effect of polynomial degree on discontinuous
Galerkin simulation of Euler equations.- Numerical Studies on the
Aerodynamics of a High-Speed Spinning Projectile.- Experimental investigation
of RR-MR transition in curved shock wave reflections.- Numerical Study of
Fabri-Choking Assisted Secondary-Flow Bypass to Enhance the Entrainment of a
Supersonic Ejector.- Comparative Study on Response of Natural and Artificial
Granular Media Towards Blast Loading.- Numerical Analysis on Supersonic Flow
Past Partially Covered Cavities.- Microstructural and texture investigation
on shock wave assisted deformation of magnesium.- Planar Shock Wave Moving
over a Double Concave Ramp.- Dynamics of Unsteady Shock Wave Reflections
Using Overset Mesh Approach.- Shock-Granular Bed Interaction and Effect of
Compaction Models.- Numerical Simulations of Shock/Boundary-Layer
Interactions in an Axisymmetric Half-Isolator.- Effect of ramped vane vortex
generators on a flare-induced shock boundary layer interaction.- Numerical
Evaluation of the Performance of Supersonic Exhaust Diffuser with and without
Ejected Mass.- Detonation Dampers for Ducts Transporting Gaseous Fuels.-
Preliminary Studies on Continuously Varying Mach number Tunnel.- Shock wave
characteristics in supersonic dual jet interaction within a confined jet.

Dr. G Rajesh is a professor in the Department of Aerospace Engineering at the Indian Institute of Technology, Madras (IIT Madras). His works are in the area of high-speed flows, shockwave dynamics, and ballistics, and he specifically focuses on shock and blast reflections, interior and intermediate ballistics, blast-induced trauma, and unsteady supersonic flows. He received his Ph.D. in Mechanical Engineering from Andong National University, South Korea, in 2008. He worked as a scientist in the Indian Space Research Organisation and in various academic institutions such as Govt. Engineering Colleges in Kerala in the Dept. of Mechanical Engineering, the Indian Institute of Space Science and Technology (IIST) in the Department of Aerospace Engineering, and at Keimyung University in South Korea in the Department of Mechanical and Automotive Engineering, in various capacities as a lecturer and an assistant professor, before joining IIT Madras as an associate professor in 2013.

Dr.R. Sriram is an assistant professor in the Department of Aerospace Engineering at the Indian Institute of Technology Madras. His research areas are high-speed flows, boundary layer separation and unsteadiness, shock wave-boundary layer interaction, and flow control. He received his Ph.D. in Aerospace Engineering from Indian Institute of Science, Bangalore, in 2014. Before joining IIT Madras he worked as a post-doctoral fellow in the Mechanical Engineering Department at King Abdullah University of Science and Technology, Saudi Arabia (20152016), and as the Marie Skodowska-Curie fellow at the James Watt School of Engineering, University of Glasgow, UK (201617).