The main objective of the course is to provide knowledge to the students about high-energy materials from theoretical and practical standpoints. This course also includes detailed formulations and reactions presented with thermochemical calculations to aid understanding to the theory and chemical types of explosives.
- Formulate the basis for evaluating competitive and alternative high energy material systems.
- Understand the theory and methods of simulations and applications of high energy materials.
- Understand the usage of tools for carrying out modeling & simulation of high energy materials for using them for creating defence related systems.
- Understanding of high energy materials from theoretical and practical standpoints, to formulate the bases for evaluating competitive and alternative high energy material systems
- High energy materials physics and chemistry
- Molecular energetic of the high energy materials molecule including molecular orbital and valence bonding and resonance stabilization
- Concepts and practical implications of sensitivity and energy potential, oxygen balance and thermodynamic, reaction rate theory, hot-spot theory, shock physics and detonation theory
- Tools for high energy materials modeling & simulation
- Overview high energy materials modeling using FEM techniqu