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Engineering Materials or Material Science

Features Includes:
  • Self-paced with Life Time Access
  • Certificate on Completion
  • Access on Android and iOS App

Course Preview Video

  • Categories

    Engineering

  • Duration

    03:04:47

  • 0 Students Enrolled

Description

The course consists a comprehensive yet concise approach towards Material science/Engineering materials. Spanning around 40+ lectures yet completing in just around 3 Hours !!. Perfect for engineering students having one of their subject (out of the dozens others) as material science or engineering materials. Covered topics are listed below.

Atomic & crystal structures - Crystal systems, Bravais lattices, Miller indices, cell characteristics, BCC (Body centered cubic), FCC (Face centered cubic) and HCP (Hexagonal close packing) structures.

  • Crystal Imperfections - Point (both elemental and compound crystal's), Linear, Planar, and bulk defects
  • The grain theory - Grain formation, measurement of grain size, grain structure, deformation types and mechanism
  • Multiphase structure - Solid solution, phase diagram (Unary and Binary), eutectic microstructure, types of invariant reactions, Fe-C phase, TTT diagram
  • Heat treatment of steel (HTS) - Hardening, tempering, austempering, martempering, annealing, stress relieving, spheroidizing, normalizing, case hardening
  • Mechanical properties of material - Tensile strength, Impact strength, Fatigue strength, Creep and hardness testing (Brinell, Vicker's and Rockwell)
  • Engineering metals - Plain carbon steel, alloy steel, cast iron, non-ferrous materials

Basic knowledge
  • Elementary knowledge of strength of material
  • Must know concepts like solute, solvent, oxidation, reduction etc
  • Patience and enthuse to learn

What will you learn
  • Crystal systems, Bravais lattices, Miller indices, cell characteristics, BCC (Body centered cubic), FCC (Face centered cubic) and HCP (Hexagonal close packing) structures
  • Point (both elemental and compound crystal's), Linear, Planar, and bulk defects
  • Grain formation, measurement of grain size, grain structure, deformation types and mechanism
  • Solid solution, phase diagram (Unary and Binary), eutectic microstructure, types of invariant reactions, Fe-C phase diagram, TTT diagram
  • Hardening, tempering, austempering, martempering, annealing, stress relieving, spheroidizing, normalizing, case hardening
  • Tensile strength, Impact strength, Fatigue strength, Creep and hardness testing (Brinell, Vicker's and Rockwell)
  • Plain carbon steel, alloy steel, cast iron, non-ferrous materials
Course Curriculum
Number of Lectures: 42 Total Duration: 03:04:47
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