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Advanced Material Semester 6 (TE Third Year) BE Chemical Engineering University of Mumbai Topics and Syllabus

CBCGS [2018 - current]
CBGS [2014 - 2017]
Old [2000 - 2013]

Syllabus

100 Advanced Metallic Material
  • Stainless steels:- Types, properties of stainless steel, corrosion resistance and selection of stainless steel, failure of stainless steel.
  • High Temperature Alloys:- Properties and types.
  • Titanium Alloys and Cobalt - Chromium Alloys:- composition, properties and applications, Nitinol as Shape memory alloy and its application
200 Advanced Polymeric Material
  • Structure, preparation and application of various conducting polymers, high temperature polymers and liquid crystal polymers, Biomedical application of polymers such as hydrogels, polyethylene, polyurethanes, polyamides and silicone rubber.
300 Ceramic Material
  • Properties of ceramic material, classification of ceramic material, ceramic crystal structures.
  • Behaviour of ceramic material:- dielectric, semiconductor, ferroelectric, magnetic, mechanical behaviour
  • Preparation and application of ceramic material:- Alumina, partially stabilized zirconia, Sialon, Silicon Nitride, Silica Carbide Processing of ceramics.
400 Composite Materials and Fiber Reinforcement Plastic Processing
401 Composite Materials
  • Necessity of composite material, classification of composite material, types of matrix and reinforcement, Reinforcement mechanism, choosing material for matrix and reinforcement
402 Fiber Reinforcement Plastic Processing
  • Open moulding and closed moulding
  • Carbon Composites:- fabrication and properties
500 Metal and Ceramic Composites
501 Metal Composites
  • Advantages of metal composite over metal, types of reinforcement and matrix fabrication types, various fabrication process, mechanical behavior and properties
502 Ceramic Composites
  • Matrices and reinforcement, mechanical properties, fabrication methods.
600 Carbon Nanotube, Nanoshells, Nanosensors and Thin Film Coatings
  • Carbon Nanotube:- Synthesis, properties and applications.
  • Nanoshells:- Types, properties and applications.
  • Nanosensors:- Assembly methods, nanosensors based on optical, quantum size, electrochemical and physical properties.
  • Thin film coatings:- Physical and chemical vapour deposition coatings, hardfacing, thermal spraying, diffusion process, useful material for appearance, corrosion and wear.
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