Shock Wave Propagation in Cementitious Materials at Micro/Meso Scales -- The Role of Metal Foams in Blast Mitigation and Related Trauma Reduction -- Novel Architectures and Coatings in Composite Materials for the Mitigation of Air and Underwater Shock Loadings -- Damage in Carbon Fiber Based Marine Composites Under Impact/Blast Loading and the Concept of Tuned Microstructure with Additive Manufacturing -- Modeling and Microstructure Design of Dissipative Elastic Metamaterials for Blast Wave Mitigation -- Response of Polyurea Coated Composite Plates Subjected to Underwater Explosive Loading: Experimental and Computational -- Shock Interactions with Structures and Their Associated Induced Flows -- Blast Mitigation Effects of Foam-Core, Composite Sandwich Structures -- Blast Response of Marine Composites -- Explosion Induced Shock Waves through a Medium and Structural Response -- Enhancing Interlaminar Damage Resistance in Woven Composites. Material Chemistry Level Modeling in Cementitious Materials -- Blast Mitigation through Techniques to steer the Blast Wave by Designing Metamaterials -- Underwater Explosions: Blast Resistance of Marine Structures -- Blast Mitigation: Materials, Testing and Challenges -- Fracture Initiation and Propagation in Marine Polymers subjected to High Strain Rate Impact -- Scaling of the Dynamic Response and Failure Mechanisms of Adaptive Composite Marine Propulsors -- An Overview of the IISc Blast Tube Research Activities -- Damage Initiation and Propagation in Blast Loaded Sandwich Structures considering Material and Geometric Nonlinearities -- Stress triaxiality in damage models for simulation of impact dynamic response -- Blast Deformation and Damage to Composite Laminates.