This course introduces the PG students to the Thermodynamics in Materials Engineering, along with the Computational aspects.
This course introduces the UG students to Design thinking.
This course introduces Computational Materials Engineering to UG students. I teach the parts focused on numerical techniques, diffusion and random walker simulations, mesoscale simulations ranging evolution of dendrites, spinodal decomposition and phase field techniques.
This course introduces students across various departments to Selection of Materials.
This course introduces students to Magnetic Materials, their processing, applications and microstructure-property correlationships. Discusses magnetic domain walls, their motion, magnetization mechanisms in soft and hard magnets. Covers all kinds of soft magnets from electrical steels to SMCs, amorphous and nanocrystalline alloys. Covers all kinds of hard magnets from the conventional ferrites to the REE NdFeB and Samarium families. Also, covers simulation topics on Ising model and micromagnetic simulations.
This course introduces students to the extraction of non ferrous materials, covering mineral beneficiation techniques, pyrometallurgy, electrometallurgy and hydrometallurgy. Each of the important non ferrous metal extraction is discussed in detail.