Course Details
Subject {L-T-P / C} : ME6334 : Thermal Processes in Surface Engineering { 3-0-0 / 3}
Subject Nature : Theory
Coordinator : Prof. Alok Satapathy
Syllabus
Surface dependent engineering properties, viz., wear friction, corrosion, fatigue, reflectivity, emissivity, etc. common surface initiated engineering failures mechanism of surface degradation importance and necessity of surface engineering classification and scope of surface engineering in metals, ceramics, polymers and composites, tailoring of surfaces of advanced materials. Wear, wear related industrial problems, different wear modes, wear modeling and surface damage prediction. Thermal Processes in surface engineering: physical/chemical vapor deposition plasma spray coating plasma assisted ion implantation surface modification by directed energy beams like ion, electron and laser beams energy transfer, beam configuration and modes, surface integration, heat and mass transfer (composition and temperature profile) during directed energy beam irradiation novelty of composition and microstructure
Course Objectives
- Basic knowledge of Surface Engg
Course Outcomes
CO1: Knowledge will be gained on the subject matter. <br />CO2: Able to apply the theory to practical problems. <br />CO3: Knowledge will be enhanced to implement the concept for product development.
Essential Reading
- R. Chattopadhyay, Advanced Thermally Assisted Surface Engineering Processes, Kluwer Academic Publishers, MA,USA (now Springer, NY)
- J.S. Burnell-Gray, Surface Engineering, Woodhead Publishing
Supplementary Reading
- J.S. Burnell-Gray, P.K. Datta,, Surface Engineering Casebook, Woodhead Publishing
- J.S. Burnell-Gray, Surface Engineering, Woodhead Publishing