subjectId
Discipline Name
Subject Name
Coordinators
Type
Institute
Content
113101002
Metallurgy and Material Science
Computational Approach to Materials Science and Engineering
Dr. M.P. Gururajan,Dr. Prita Pant
Web
IIT Bombay
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Module 1: Introduction
Module 1: The C programming language
Module 2: gnuplot � the plotting freeware
Module 3: GNU Octave for computations and plotting
Module 4: Scilab: the scientific computation package
Module 5: Some miscallaneous freeware
Module 1: Plotting
Module 2: Fitting
Module 3: Interpolation
Module 4: Numerical integration
Module 5: Numerical differentiation
Module 1: Structure and defects
Module 2: Regular solution model
Module 3 : Diffusion and precipitate growth ki- netics
Module 4: Spinodal decomposition
Module 5 : Ordering
Module 6 : Molecular Dynamics
Module 7 : Monte Carlo simulations
113101003
Metallurgy and Material Science
Phase Transformations and Heat Treatment
Dr. M.P. Gururajan
Web
IIT Bombay
Select
Module 1: Gibbs free energy and equilibria
Module 2: Gibbs free energy of a binary alloy
Module 3: G versus xB curves and phase diagrams
Module 4: Driving force for diffusion
Module 5: Fick's laws of di usion and their solution
Module 6: Diffusivity
Module 1: Structure of interfaces
Module 2 : Interfacial free energy
Module 3: A bond-breaking model
Module 4: Equilibrium shapes of crystals
Module 1 : Effect of interfaces
Module 2 : Nucleation of solids from their melt
Module 3 : Nucleation of precipitates from a supersaturated matrix
Module 4 : Growth of precipitates and kinetics of nucleation and growth
Module 1 : Precipitation
Module 2 : Cellular precipitation
Module 3 : Eutectoid transformations
Module 4 : Massive transformations
Module 5 : Martensitic transformations
Module 1 : Spinodal decomposition
Module 2 : Order-disorder transformation
Module 1 : Hardness and hardenability: an aside
Module 2 : Formation and evolution of microstructures
Module 3 : Practical aspects of heat treatment
Module 4 : Quenching
Module 5 : Some standard heat treatments
Module 1 : Recovery and recrystallisation
Module 2 : Grain growth
Module 3 : Coarsening
Module 1 : Types of transformations
Module 1 : Supplementary information
113104005
Metallurgy and Material Science
Electroceramics
Dr. Ashish Garg
Web
IIT Kanpur
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Overview
Brief Review of Structure in Materials
A Brief Review of Bonding in Materials
Packing of Atoms in Metals
Interstices in Structures
Structure of Covalent Ceramics
Ionically Bonded Ceramic Structures
Compounds based on FCC Packing of Ions
Other Cubic Structures
Orthogonal Structures
Structures based on HCP Packing of Ions
Summary
Introduction
Point Defects
Kroger�Vink notation in a metal oxide, (MO)
Defect Reactions
Defect Structures in Stoichiometric Oxides
Defect Structures in Non - Stoichiometric Oxides
Dissolution of Foreign Cations in an Oxide
Concentration of Intrinsic Defects
Intrinsic and Extrinsic Defects
Units for Defect Concentration
Defect Equilibria
Defect Equilibria in Stoichiometric Oxides
Defect Equilibria in Non-Stoichiometric Oxides
Defect Structures involving Oxygen Vacancies and Interstitials
Defect Equilibrium Diagram
A Simple General Procedure for Constructing a Brouwer\'s Diagram
Extent of Non-Stoichiometry
Example: Comparative Behavior of Titanium Dioxide and Magnesium Oxide vis-�-vis Oxygen Pressure
Electronic Disorder
Examples
Summary of Defect Chemistry and Defect Equilibria
Introduction
Diffusion
Diffusion Kinetics
Examples of Diffusion in Ceramics
Mobility and Diffusivity
Analogue to the Electrical Properties
Conduction in Ceramics vis-�-vis metallic conductors: General Information
Ionic Conduction: Basic Facts
Ionic and Electronic Conductivity
Characteristics of Ionic Conduction
Theory of Ionic Conduction
Conduction in Glasses
Fast Ion Conductors
Examples of Ionic Conduction
Electrochemical Potential
Nernst Equation and Application of Ionic Conductors
Examples of Ionic Conductors in Engineering Applications
Summary of Defects, Diffusion and Conduction in Ceramics
Introduction
Basic Properties: Dielectrics in DC Electric Field
Mechanisms of Polarization
Microscopic Approach
Determination of Local Field
Analytical Treatment of Polarizability
Effect of Alternating Field on the Behavior of a Dielectric Material
Frequency Dependence of Dielectric Properties: Resonance
Dipolar Relaxation i.e. Debye Relaxation in Polar Solids
Circuit Representation of a Dielectric and Impedance Analysis
Impedance Spectroscopy
Dielectric Breakdown
Basic mechanisms of breakdown
Summary of Dielectric Ceramics: Basic Principles
Introduction
Classification based on Crystal Classes
Ferroelectric Ceramics
Piezoelectric Ceramics
Pyroelectric Ceramics
Summary of Nonlinear Dielectrics
Introduction
Magnetic Moments
Macroscopic view of Magnetization
Classification of Magnetism
Diamagnetism
Paramagnetism
Ferromagnetism
Antiferromagnetic Materials
Ferrimagnetic Materials
A Comparison
Magnetic Losses and Frequency Dependence
Magnetic Ferrites
Summary of Magnetic Ceramics
Introduction
Background
Meissner Effect
The Critical Field, Hc
Theory of Superconductivity
Discovery of High Temperature Superconductivity
Mechanism of High Temperature Superconductivity
Applications
Summary of High temperature Superconductors
Introduction
Ferroic Material
Historical Perspective
Requirements of a Magnetoelectric and Multiferroic Material
Magnetoelectric Coupling
Type I Multiferroics
Type II Multiferroics
Two Phase Materials
Summary of Multiferroic and Magnetoelectric Ceramics
Introduction
Bulk Preparation Methods
Thin Film Preparation Methods
Thin film deposition: Issues
Summary of Synthesis Methods
Table of Contents
General Bibliography
113104006
Metallurgy and Material Science
Electroceramics
Dr. Ashish Garg
Video
IIT Kanpur
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Lecture-01
Lecture-02
Lecture-03
Lecture-04
Lecture-05
Lecture-06
Lecture-07
Lecture-08
Lecture-09
Lecture-10
Lecture-11
Lecture-12
Lecture-13
Lecture-14
Lecture-15
Lecture-16
Lecture-17
Lecture-18
Lecture-19
Lecture-20
Lecture-21
Lecture-22
Lecture-23
Lecture-24
Lecture-25
Lecture-26
Lecture-27
Lecture-28
Lecture-29
Lecture-30
Lecture-31
Lecture-32
Lecture-33
Lecture-34
Lecture-35
Lecture-36
Lecture-37
Lecture-38
Lecture-39
Lecture-40
Lecture-41
113104008
Metallurgy and Material Science
Fuels Refractory and Furnaces
Prof. Satish Ch. Koria
Video
IIT Kanpur
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Lecture-1_Energy Resources and Environment
Lecture-2_Characterization of Fuels: Concepts
Lecture-3_Characterization of Fuels: Concepts
Lecture-4_Production of Secondary Fuels : Carbonization
Lecture-5_Materials Balance in Coke-making
Lecture-6_Heat Balance and Clean Development Mechanism
Lecture-7_Production of Secondary Fuels: Gasification
Lecture-8_Materials and Heat Balance in Gasification
Lecture-9 Principles of combustion: Concepts and illustrations
Lecture-10_Principles of combustion: Concepts and illustrations
Lecture-11_Materials balance in combustion
Lecture-12 _Principles of Combustion: Flame Temperature
Lecture-13_Flame Temperature Calculations
Lecture-14_Refractory in Furnaces
Lecture-15_Refractory in Furnaces
Lecture-16_Furnace: Types and Classification
Lecture-17_Heat Utilization in furnaces, energy flow diagrams
Lecture-18 _Heat Utilization in furnaces, energy flow diagrams
Lecture-19_Heat Utilization in Furnaces: Heat Recovery Concepts and Illustrations
Lecture-20_Heat Utilization in Furnaces: Heat Recovery Concepts and Illustrations
Lecture-21_Transport Phenomena in Furnaces: Fluid Flow
Lecture-22_Macroscopic Energy Balance: Concepts
Lecture-23_Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames
Lecture-24_Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames
Lecture-25_Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames
Lecture-26_Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames
Lecture-27_Principles of Burner Design
Lecture-28_Transport Phenomena in Furnaces: Heat Transfer and Refractory Design
Lecture-29_Transport Phenomena in Furnaces: Heat Transfer and Refractory Design
Lecture-30_Transport Phenomena in Furnaces: Convection and Radiation Heat Transfer, Role of Refractory
Lecture-31_Transport Phenomena in Furnaces: Convection and Radiation Heat Transfer, Role of Refractory
Lecture-32_Steady Heat flows in Furnace and Heat Exchanger
Lecture-33_Exercises on Heat Flow in Furnaces and Heat Exchangers
Lecture-34_Exercises on Heat Flow in Furnaces and Heat Exchangers
Lecture-35_Miscellaneous Topics: Atmosphere in Furnaces
Lecture-36_Miscellaneous Topics: Pyrometry
Lecture-37_Miscellaneous Topics: Pyrometry
Lecture-38_Miscellaneous topics: Electric Resistance Heating
Lecture-39_Furnace efficiency, Fuel Saving, Carbon Offset: Concepts and Exercises
Lecture-40_Furnace efficiency, Fuel Saving, Carbon Offset: Concepts and Exercises
113104009
Metallurgy and Material Science
Introduction to Biomaterials
Dr. Birkamjit Basu,Dr. Kantesh Balani
Video
IIT Kanpur
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Lecture-01-Introduction to basic concepts of Biomaterials Science; Salient properties of important material classes; overview of body environment,
Lecture-02-Manufacturing and properties of metals, ceramics, polymers and composites
Lecture-03-Concept of biocompatibility, host response, structure-property of biological cell
Lecture-04-Structure and properties of cells, protein and cellular adaptation process
Lecture-05-Cell I
Lecture-06-Cell II
Lecture-07-Cell Migration and Cell Division and cell death
Lecture-08-Cell Differentiation and Cell Death
Lecture-09-Cell Apoptosis- I
Lecture-10-Cell Apoptosis- II
Lecture-11-Structure and properties of Protein; cell - material interaction
Lecture-12-Assessment of biocompatibility of biomaterials
Lecture-13-Biological testing (hemocompatibility, tribological testing)
Lecture-14-Structure and properties of bone as well as in vivo testing and histocompatibility assessment.
Lecture-15-Important biometallic alloys
Lecture-16-Ti Alloy
Lecture-17-Co-Cr-Mo alloys
Lecture-18-Bioceramics
Lecture-19-Processing of Bioceramics
Lecture-20-Ceramics, Bioceramics and Glasses
Lecture-21-Sintering and mechanical properties of ceramics.
Lecture-22-Fracture and toughening of ceramic composites
Lecture-23-Development of based bioceramic composites for hard tissue replacement
Lecture-24-Alternative phosphate materials, based composites with bactericidal property and glass ceramics for dental restoration
Lecture-25-Electrostatic Spraying of UHMWPE-HA-CNT composites
Lecture-26-Thin Films and Coatings
Lecture-27-hermal Spray Coatings
Lecture-28-Biocompatibility of plasma sprayed CNT reinforced Hydroxyapatite biocomposite coatings
Lecture-29-Biocompatibility of Alumina and CNT reinforced Hydroxyapatite
Lecture-30-Glass-ceramics for dental restoration applications
Lecture-31-Structure and properties of polymers
Lecture-32-Biodegradable polymers (Importance)
Lecture-33-Biodegradable polymers (Types)
Lecture-34-Mechanisms of Bioerosion
Lecture-35-External field and material interaction
Lecture-36-Tissue Engineering and wound healing
Lecture-37-Understanding Design Concepts of Bio-implants
Lecture-38-Understanding Design Concepts of Dental-implants
Lecture-39-Understanding Design Concepts of Orthopedic-implant
113104010
Metallurgy and Material Science
Materials and Energy balance in Metallurgical Processes
Prof. Satish Ch. Koria
Video
IIT Kanpur
Select
Lecture-01_Introduction to Course
Lecture-02_Measurement of Quantities
Lecture-03_Exercises on Measurement of Quantities, Introduction to Stoichiometry
Lecture-04_Stoichiometry Concept and Exercise
Lecture-05_Exercise on Stoichiometry and Introduction to Thermochemistry
Lecture-06_Thermochemistry
Lecture-07_Exercise on Thermochemistry & Frequently Asked Questions
Lecture-08_ Errors in Measurements
Lecture-09_Basics of Materials & Energy Balance
Lecture-10_ Introduction to Mineral Beneficiation
Lecture-11_Materials Balance in Mineral Processing and Faq
Lecture-12_ Exercises in Mineral Processing
Lecture-13_Calcination Concepts & Exercises
Lecture-14_Pyromet ExtractionUnit Processes
Lecture-15_Predominance Area Diagram
Lecture-16_Material Balance in Roasting;illustration
Lecture-17_Heat Balance in Roasting illustration
Lecture-18_Exersises on Roasting
Lecture-19_Exercises on Roasting
Lecture-20_Smelting Matte Smelting
Lecture-21_Exercise-I Matte Smelting
Lecture-22_Exercise-II Matte Smelting
Lecture-23_Reduction Smelting
Lecture-24_Lead Smelting Material Balance
Lecture-25_Imperial Smelting Process
Lecture-26_Introduction to Ironmaking
Lecture-27_Coke Making
Lecture-28_Ironmaking Fundamentals
Lecture-29_Material & Heat Balance in Ironmaking-I
Lecture-30_Material & Heat Balance in Ironmaking-II
Lecture-31_RIST Diagram-I
Lecture-32_RIST Diagram-II
Lecture-33_Concepts in Converting
Lecture-34_Exercise in Converting
Lecture-35_Additional Topics-I Melting in Cupola
Lecture-36_Additional Topics-II Gasification
Lecture-37_Additional topic-III Material Balance in Gasification
Lecture-38_Additional Topics-IV Industrial Furnaces
Lecture-39_Energy Balance in Industrial Furnaces
Lecture-40_Thoughts on Application of Energy Balance
113104013
Metallurgy and Material Science
Steel Making
Prof. Dipak Mazumdar,Prof. Satish Ch. Koria
Video
IIT Kanpur
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Lecture-01
Lecture-02
Lecture-03
Lecture-04
Lecture-05
Lecture-06
Lecture-07
Lecture-08
Lecture-09
Lecture-10
Lecture-11
Lecture-12
Lecture-13
Lecture-14
Lecture-15
Lecture-16
Lecture-17
Lecture-18
Lecture-19
Lecture-20
Lecture-21
Lecture-22
Lecture-23
Lecture-24
Lecture-25
Lecture-26
Lecture-27
Lecture-28
Lecture-29
Lecture-30
Lecture-31
Lecture-32
Lecture-33
Lecture-34
Lecture-35
Lecture-36
Lecture-37
Lecture-38
Lecture-39
Lecture-40
Lecture-41
Lecture-42
113104058
Metallurgy and Material Science
Fuel,furnace and Refractory
Prof. Satish Ch. Koria
Web
IIT Kanpur
Select
Energy and Environment
Characterisation of Fuels
Exercises of analysis and calorific value
Production of secondary fuel
Material balance in Coke making
Heat balance in Coke oven and clean Development Mechanism
Production of Gaseous Fuel
Gasification: Material and Heat Balance
Principles of combustion
Material balance in combustion
Principles of Combustion-III
Flame Temperature
Flame Temperature 1
Refractory Materials
Application of Refractory Materials
Furnace: Type and classification
Heat Utilization in Furnaces
Energy flow diagram and fuel consumption
Heat recovery
Exercises on heat recovery
Transport Phenomena in Furnaces: Fluid Flow
Mechanical Energy Balance
Flow meter Design
Design of flow meters
Design of stack
Exerises on Fluid Flow
Principles of Burner Design
Basics of Heat Transfer
Refractory Design in furnaces
Refractory design calculations
Refractory and gas radiation
Steady state heat flow in furnaces and heat exchangers
Heat flow in furnaces
Heat flow in furnaces and exchangers
Atmosphere in Furnaces
Temperatue Measurements
Temperature Measurement: Radiation Pyrometry
Electric Resistance Heating
Furnace efficiency and carbon-credit
Illustration on carbon credit and efficiency
113104059
Metallurgy and Material Science
Steel Making
Prof. Satish Ch. Koria
Web
IIT Kanpur
Select
Types of steels, History of modern steelmaking and Indian scenario
Modern steelmaking
Science base of Steelmaking
Slag in Steelmaking
Physico-chemical properties of slag
Steel Making Reactions: Oxidation of Iron and Silicon
Oxidation of Manganese and Carbon
Dephosphorization Reaction
Refractory Materials
Refractory in steelmaking
Converter steelmaking
Converter Steelmaking Practice & combined blowing
Fundamentals of Converter Steelmaking Technology
Modern trends in BOF steelmaking
Electric Furnace Steelmaking
Development in EAF Steelmaking
Alternative Charge Materials in EAF
Stainless steel making
Emerging Steelmaking Technologies
Process Control BOF Steelmaking
Evolution of ladle Treatment and Requirements
Synthetic slag practice
Injection ladle metallurgy
Principles of Deoxidation
Principles of degassing
Degassing Practice
Clean Steel
inclusion sources and control
inclusion Engineering
Exercise in ladle metallurgy
Principles of solidification of steel
Ingot casting
continuous casting of steel
Advances in Continuous Casting of Steel
Final Finishing Operations
Heat treatment
Deformation Processing
Modeling of steelmaking processes
illustration of physical modeling
Exercises on steelmaking
Status of Steelmaking in India
Self Assessment questions
113104060
Metallurgy and Material Science
Materials and Heat Balance in Metallurgical Processes
Prof. Satish Ch. Koria
Web
IIT Kanpur
Select
Introduction
Measurement of quantities
Exercises on measurement of quantities
Stoichiometry, concept
Eexercises on stoichiometry
Thermochemistry
Thermochemistry: Illustration
Thermo chemistry applications in metal extraction
Energy balance and metal extraction
Mineral Beneficiation
Material balance in mineral processing
Exercises in mineral processing
Calcination
Pyro metallurgical extraction (Roasting)
Thermodynamics of roasting
Material balance in roasting
Basics of heat balance in roasting
Material and heat balance in roasting of chalcopyrite ore
Roasting of zinc and lead concentrate
Smelting
Matte smelting; material balance
Heat balance in matte smelting
Reduction smelting
Exercises on lead smelting
Matreial balance in imperial smelting process
Iron making in blast furnace
Basics of ironmaking
Materials Balance in Iron making
Exercises in material balance in Iron-making
Heat balance in iron-making
Blast furnace stoichiometry �I
blast furnace stoichiomelry�II
Converting
Material and heat balance in converting
Material balance in cupola
Production of Gaseous fuel
Gassification material and heat balance
Industrial Furnaces
Industrial furnaces1
Thoughts on energy balance
Self evaluation
113104061
Metallurgy and Material Science
Environmental Degradation of Materials
Dr. Kallol Mondal
Video
IIT Kanpur
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Lecture-01 Introduction, Basic definition of corrosion
Lecture-02 Forms of Degradation, Thermodynamics of corrosion
Lecture-03 Thermodynamics of corrosion
Lecture-04 Thermodynamics of corrosion
Lecture-05 Thermodynamics of corrosion, Electrochemical series, Concentration cell
Lecture-06 Reduction Potential series, Pourbaix diagram
Lecture-07 Pourbaix diagram
Lecture-08 Pourbaix diagram
Lecture-09 Pourbaix diagram, Kinetics of corrosion
Lecture-10 Kinetics of corrosion, Rate expression, Solved problems
Lecture-11 Solved problems on the corrosion rate, Exchange current density
Lecture-12 Exchange current density, Polarization, Activation Polarization, Tafel Equation
Lecture-13 Activation Polarization, Concentration Polarization
Lecture-14 Concentration Polarization, Mixed Potential Theory
Lecture-15 Mixed Potential Theory, Explanation of corrosion events on the basis of Mixed potential theory, Galvanization
Lecture-16 Explanation of corrosion events on the basis of Mixed potential theory, Effect of impurity, Effect of area factor
Lecture-17 Explanation of corrosion events on the basis of Mixed potential theory, Effect of area factor, Concentration polarization, Passivation
Lecture-18 Passivation and Mixed potential theory
Lecture-19 Passivation and Mixed potential theory
Lecture-20 Different corrosion protection mechanisms, electrochemical ways of protection, cathodic protection
Lecture-21 Cathodic and anodic protection
Lecture-22 Anodic protection, Forms of corrosion, Factors of corrosion
Lecture-23 Forms of corrosion, Uniform Corrosion, Galvanic corrosion
Lecture-24 Galvanic corrosion
Lecture-25 Crevice corrosion
Lecture-26 Crevice corrosion, Pitting corrosion
Lecture-27 Pitting corrosion, Intergranular corrosion
Lecture-28 Intergranular corrosion, Dealloying
Lecture-29 Dealloying, Erosion corrosion
Lecture-30 Erosion corrosion, Cavitation
Lecture-31 Cavitation, Fretting corrosion, corrosion cracking
Lecture-32 Stress corrosion cracking: mechanisms(dissolution controlled)
Lecture-33 Stress corrosion cracking: mechanisms(cleavage controlled), factors affecting SCC, hydrogen embrittlement, corrosion fatigue
Lecture-34 Biologically influenced corrosion, liquid metal attack
Lecture-35 Corrosion protection, change of materials, effect of design of component
Lecture-36 Corrosion protection, change of environment, Inhibitors, coatings
Lecture-37 Oxidation and hot corrosion, pitting Bedworth ratio, thermodynamics of oxidation
Lecture-38 Thermodynamics of oxidation, Ellingham diagram, oxidation kinetics and laws
Lecture-39 Oxide structure and Oxidation
Lecture-40 Hot corrosion, corrosion testing and failure analysis, linear polarization
Lecture-41 Degradation of composites, polymers and ceramics, corrosion and society
113105015
Metallurgy and Material Science
Advanced ceramics for strategic applications
Prof. H.S. Maiti
Video
IIT Kharagpur
Select
Introduction
Introduction (Contd.)
Crystal Structure
Crystal Structure (Contd.)
Crystal Structure (Contd. )
Crystal Structure ( Contd.)
Defects in crystalline solids
Defects in crystalline solids (Contd.)
Dislocation
Two and Three Dimensional Defects
Electrical Conduction in ceramics
Electrical Conduction in Ceramics (Contd.)
Electrical Conduction in Ceramics (Contd. )
Electrical Conduction in Ceramics ( Contd.)
Electrical Conduction in Ceramics ( Contd .)
Electrical Conduction in Ceramics ( Contd .)
Electrical Phenomenon in Insulators
Electrical Phenomenon in Insulators (Contd.)
Ferroelectric , Piezoelectric and Pyroelectric Ceramics
Ferroelectric , Piezoelectric and Pyroelectric Ceramics (Contd.)
Ferroelectric , Piezoelectric and Pyroelectric Ceramics ( Contd.)
Ferroelectric , Piezoelectric and Pyroelectric Ceramics ( Contd.)
Relaxor Ferroelectric
Superconductivity
Superconductivity (Contd.)
Ceramic Gas Sensor
Ceramic Gas Sensor (Contd.)
Solid Oxide Fuel Cell
Solid Oxide Fuel Cell (Contd.)
Solid Oxide Fuel Cell (Contd. )
Hydrogen Generation through MIEC Reactor
Lithium Ion Battery
Lithium Ion Battery (Contd.)
Magnetic Ceramics
Magnetic Ceramics (Contd.)
Magnetic Ceramics (Contd. )
Magnetic Ceramics ( Contd. )
Sintering of Ceramics
Sintering of Ceramics (Contd.)
Sintering of Ceramics ( Contd.)
Sintering of Ceramics ( Contd .)
Mechanical Properties of Ceramic Materials
Mechanical Properties of Ceramic Materials (Contd.)
Mechanical Properties of Ceramic Materials ( Contd.)
Mechanical Properties of Ceramic Materials ( Contd.)
Structural Ceramics Materials
Bioceramics
113105021
Metallurgy and Material Science
Non-ferrous Extractive Metallurgy
Prof. H.S. Ray,Mr. L Pugazhenthy
Video
IIT Kharagpur
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Brief History of Non-ferrous Metal
Brief History of Non-ferrous Metal (Contd.)
Sources of Non-ferrous Metal
Mineral Benefication Techniques
General Methods of Metal Extraction
Principles of Carbon Reduction
Principles of Hydrometalling
Principles of Electrometallurgy
Electrometallurgy (Contd.) and Temkin Model for Fused Salts
Refining of Metals - Chemical Methods
Refining of Metals - Physical Methods
Concluding part of Module - 4
Concluding part of Module - 4 (Contd.)
Module - 5 Extraction of Metals from Oxides, Extraction of Magnesium
Extraction Aluminium
Extraction Aluminium (Contd...1)
Extraction Aluminium (Contd...2)
Extraction Aluminium (Contd...3)
Extraction of Tin
Extraction of Ferro Alloys
Module - 6 Extraction of Metals from Sulphides Extraction of Copper
Extraction of Copper (Contd.)
Hydrometallurgy of Copper
Extraction of Lead
Extraction of Zinc-Imperial Smelting Process
Module - 7 Extraction of metals from halides, Extraction of reactor metals
Extraction of reactor metals (Contd...1)
Extraction of reactor metals (Contd...2)
Extraction of Titanium
Extraction of Precious Metals
Production of Secondary Metals and Treatment of Wastes
Energy and Environment Related Issues in Nonferrous Metals Production
Energy and Environment Related Issues in Nonferrous Metals Production (Contd...1)
Energy and Environment Related Issues in Nonferrous Metals Production (Contd...2)
Energy and Environment Related Issues in Nonferrous Metals Production (Contd...3)
Energy and Environment Related Issues in Nonferrous Metals Production (Contd...4)
Energy and Environment Related Issues in Nonferrous Metals Production (Contd...5)
Energy and Environment Related Issues in Nonferrous Metals Production (Contd...6)
Nonferrous Metals in India - Unleashing its true potential
Nonferrous Metals in India - Unleashing its true potential (Contd.)
Review and Summary
Review and Summary (Contd...1)
Review and Summary (Contd...2)
113105024
Metallurgy and Material Science
Principles of Physical Metallurgy
Prof. R.N. Ghosh
Video
IIT Kharagpur
Select
Introduction
Atomic Bond and Crystal Structure
Atomic Bond and Crystal Structure (Contd...1)
Atomic Bond and Crystal Structure (Contd...2)
Experimental Tools & Techniques
Experimental Tools & Techniques (Contd.)
Solidification of Pure Metal
Plastic Deformation of Pure Metal
Plastic Deformation of Pure Metal (Contd.)
Crystal Defects in Metals
Crystal Defects in Metals (Contd...1)
Crystal Defects in Metals (Contd...2)
Crystal Defects in Metals (Contd...3)
Crystal Defects in Metals (Contd...4)
Diffusion in Solids
Diffusion in Solids (Contd.)
Numerical Examples in Diffusion
Solidification of Binary Alloys
Solidification of Binary Alloys (Contd...1)
Solidification of Binary Alloys (Contd...2)
Solidification of Binary Alloys (Contd...3)
Solidification of Binary Alloys (Contd...4)
Iron-Carbon Phase Diagram
Iron-Carbon Phase Diagram (Contd.)
Ternary Phase Diagram
Common Binary Alloys
Metal Working : Deformation Processing
Metal Working : Deformation Processing (Contd.)
Precipitation for Solid Solution
Precipitation for Solid Solution (Contd.)
Heat Treatment of Steel
Heat Treatment of Steel (Contd...1)
Heat Treatment of Steel (Contd...2)
Heat Treatment of Steel (Contd...3)
Heat Treatment of Steel (Contd...4)
Heat Treatment of Steel (Contd...5)
Surface Hardening
Structural Steel
Structural Steel (Contd.)
Ultra High Strength Steel
Preferred Orientation: Application
Metal Joining
113105028
Metallurgy and Material Science
Science and Technology of Polymers
Prof. B. Adhikari
Video
IIT Kharagpur
Select
Basic Concepts on Polymers
Basic Concepts on Polymers (Contd.)
Basic Concepts on Polymers (Contd.)
Polymer Raw Materials
Principles of Polymer Synthesis
Principles of Polymer Synthesis (Contd.)
Principles of Polymer Synthesis (Contd.)
Principles of Polymer Synthesis (Contd.)
Principles of Polymer Synthesis (Contd. )
Principles of Polymer Synthesis (Contd.)
Structure and Properties of Polymers (Contd. )
Structure and Properties of Polymers (Contd.)
Structure and Properties of Polymers (Contd. )
Structure and Properties of Polymers (Contd.)
Polymerization Techniques
Polymerization Techniques (Contd.)
Polymerization Techniques (Contd. )
Polymer Products
Polymer Products (Contd.)
Rubber Products
Rubber Products (Contd.)
Conducting Polymers
Conducting Polymers (Contd.)
Liquid Crystalline Polymers
Stimuli Responsive Polymer and its application
Stimuli Responsive Polymer and its application (Contd.)
Polymeric Nanomaterials and Devices (Contd.)
Polymeric Nanomaterials and Devices (Contd.)
Polymeric Nanomaterials and Devices (Contd.)
Environmental Degradation of Polymers
Environmental Degradation of Polymers (Contd.)
Polymer Composites
Polymer Composites (Contd. )
Polymer Composites (Contd.)
Multicomponent Polymeric Materials
Multicomponent Polymeric Materials (Contd.)
Multicomponent Polymeric Materials (Contd.)
Viscoelasticity
Engineering and Speciality Polymers
Engineering and Speciality Polymers (Contd.)
113105057
Metallurgy and Material Science
Advanced Materials and Processes
Prof. B.S. Murty
Video
IIT Kharagpur
Select
Structure of Materials Part - I
Structure of Materials Part - II
Nano Crystalline Materials Part - I
Nano Crystalline Materials Part - II
Nano Crystalline Materials Part - III
Nano Crystalline Materials Part - IV
Amorphous Materials Part - I
Amorphous Materials Part - II
Amorphous Materials Part - III
Amorphous Materials Part - IV
Amorphous Materials Part - V
Quasicrystals Part - I
Quasicrystals Part - II
Nano Quasicrystals Part - I
Nano Quasicrystals Part - II
Rapid Solidification Processing
Mechanical Alloying
Advanced AI Alloys Part - I
Advanced AI Alloys Part - II
Advanced AI Alloys Part - III
Advanced AI Alloys Part - IV and Ti Alloys
Shape Memory Alloys
Strengthening Mechanisms Part - I
Strengthening Mechanisms Part - I
Superalloys
In-Situ Composites Part - I
113106031
Metallurgy and Material Science
Advanced Metallurgical Thermodynamics
Prof. B.S. Murty
Video
IIT Madras
Select
Basic definitions
Free energy, Stability, equilibrium in a unary system
Effect of Pressure on equilibrium transformations: Clausius Clapeyron equation, phase diagram for unary system
Free energy of solutions, free energy-composition diagrams
Solution models, chemical potential
Phase rule, free energy-composition diagrams and phase diagrams
Evolution of phase diagrams
Evolution of phase diagrams, miscibility gap
T
o
concept, partition less solidification
T
o
concept, partition less solidification (cond...)
Eutectic solidification, glass formation
Kauzmann paradox, order of a transformation, glass forming ability
Eutectic solidification, coupled growth, heterogeneous nucleation
Peritectic solidification, metastable phase diagrams
Errors in drawing phase diagrams, Fe-C vs. Fe-Fe
3
C phase diagram
Free energy of undercooled liquid, shape of nucleus
Solid state phase transformations - Precipitation
Precipitation
Precipitation � quasicrystals
Precipitate coarsening, stability of a phase, spinodal decomposition
Spinodal decomposition
Eutectioid reaction
Eutectioid reaction (cond...)
Bainitic transformation
Kinetics of eutectoid transformations
Martensitic Transformation
Martensitic transformation, order-disorder transformation
Miscibility gap in phase diagrams
Phase diagram calculations
Thermodynamics of heterogeneous systems
Thermodynamics of heterogeneous systems (cond...)
113106032
Metallurgy and Material Science
Introduction to Materials Science and Engineering
Dr. Ranjit Bauri
Web
IIT Madras
Select
1 - Introduction & History
2 - History
3 - Atomic structure
4 - Crystal structure
5 - Polycrystalline
6 - Lattice defects
7 - Diffusion
8 - Solid Solutions
9 - Phase diagrams
10 - Phase Transformation
11 - Strengthening Mechanisms
12 - Mechanical Properties
13 - Thermal Property
14 - Electrical Properties
15 - Magnetic Properties
16 - Properties and Applications of Materials
113106039
Metallurgy and Material Science
Physics of Materials
Dr. Prathap Haridoss
Video
IIT Madras
Select
Introduction
Properties of Materials
Thermal Expansion
Measuring Electrical Conductivity: DC and AC
Free Electron Gas
The Ideal Gas
Drude Model: Electrical Conductivity
Drude Model: Thermal Conductivity
Drude Model: Successes and Limitations
Drude Model: Source of Shortcomings
Large Systems and Statistical Mechanics
Maxwell Boltzmann Statistics
Classical Particles and Quantum Particles
History of Quantum Mechanics � 1
History of Quantum Mechanics � 2
Introduction to Drude Sommerfeld model
Fermi-Dirac Statistics: Part 1
Fermi-Dirac Statistics: Part 2
Features of the Fermi Dirac Distribution Function
Maxwell-Boltzmann Distribution Vs Fermi-Dirac Distribution
Anisotropy and Periodic Potential in a Solid
Confinement and Quantization: Part 1
Confinement and Quantization: Part 2
Density of States
Fermi Energy, Fermi Surface, Fermi Temperature
Electronic Contribution to Specific Heat at Constant Volume
Reciprocal Space � 1: Introduction to Reciprocal Space
Reciprocal Space � 2: Condition for Diffraction
Reciprocal Space � 3: Ewald sphere, Simple Cubic, FCC and BCC in Reciprocal Space
Wigner Seitz Cell and Introduction to Brillouin Zones
Brillouin Zones, Diffraction, and Allowed Energy Levels
E Vs k, Brillouin Zones and the Origin of Bands
Calculating Allowed Energy Bands and Forbidden Band Gaps
Bands; Free Electron Approximation, Tight Binding Approximation
Semiconductors
Magnetic Properties
Electron Compounds; Phonons, Optoelectronic Materials
Superconductivity
Bose-Einstein Statistics
Physics of Nano Scale Materials; Course Summary
113106040
Metallurgy and Material Science
Physics of Materials
Dr. Prathap Haridoss
Web
IIT Madras
Select
1 - Introduction
2 - Properties of Materials
3 - Thermal Expansion
4 - Measuring Electrical Conductivity: DC and AC
5 - Free Electron Gas
6 - The Ideal Gas
7 - Drude Model: Electrical Conductivity
8 - Drude Model: Thermal Conductivity
9 - Drude Model: Successes and Limitations
10 - Drude Model: Source of Shortcomings
11 - Large Systems and Statistical Mechanics
12 - Maxwell Boltzmann Statistics
13 - Classical Particles and Quantum Particles
14 - History of Quantum Mechanics � 1
15 - History of Quantum Mechanics � 2
16 - Introduction to Drude Sommerfeld model
17 - Fermi-Dirac Statistics: Part 1
18 - Fermi-Dirac Statistics: Part 2
19 - Features of the Fermi Dirac Distribution Function
20 - Maxwell-Boltzmann Distribution Vs Fermi-Dirac Distribution
21 - Anisotropy and Periodic Potential in a Solid
22 - Confinement and Quantization: Part 1
23 - Confinement and Quantization: Part 2
24 - Density of States
25 - Fermi Energy, Fermi Surface, Fermi Temperature
26 - Electronic Contribution to Specific Heat at Constant Volume
27 - Reciprocal Space � 1: Introduction to Reciprocal Space
28 - Reciprocal Space � 2: Condition for Diffraction
29 - Reciprocal Space � 3: Ewald sphere, Simple Cubic, FCC and BCC in Reciprocal Space
30 - Wigner Seitz Cell and Introduction to Brillouin Zones
31 - Brillouin Zones, Diffraction, and Allowed Energy Levels
32 - E Vs k, Brillouin Zones and the Origin of Bands
33 - Calculating Allowed Energy Bands and Forbidden Band Gaps
34 - Bands; Free Electron Approximation, Tight Binding Approximation
35 - Semiconductors
36 - Magnetic Properties
37 - Electron Compounds; Phonons, Optoelectronic Materials
38 - Superconductivity
39 - Bose-Einstein Statistics
40 - Physics of Nano Scale Materials; Course Summary
113108051
Metallurgy and Material Science
Advances in Corrosion Engineering
Prof. K.A. Natarajan
Web
IISc Bangalore
Select
Corrosion � introduction, definitions and types
Electrochemical cells-definitions and principles
Potential measurements - galvanic cells, concentration cells.
EMF and Galvanic series - bimetallic couples.
Eh-pH diagrams � fundamental aspects.
Construction of Eh � pH diagrams. Fe-H2O-O2 diagram.
Copper, Aluminium and general corrosion diagrams.
Electrode � solution interface � definition and types of polarization.
Exchange current density � polarization relationships.
Polarization techniques � corrosion rate determination.
Mixed potentials � concepts and Basics
Mixed potential theory � bimetallic couples
Mixed potential theory � activation and diffusion controlled processes
Prevention strategies � design and coatings.
Prevention strategies � inhibitors and surface engineering.
Cathodic protection � principles and classification
: Cathodic protection � influencing factors and monitoring.
Design aspects for cathodic protection.
Stray current corrosion.
Passivity � definitions and influencing parameters
Passivity � application of mixed potential theory
Passivity � design of corrosion resistant alloys
Anodic protection
Microbially influenced corrosion (MIC) � definitions, environments and microbiology
MIC - Electrochemical aspects and general mechanisms
MIC � Bacterial transport, attachment and affected materials.
MIC - Role of aerobic and anaerobic microorganisms
Mechanisms and models for SRB corrosion
MIC and Biofilms.
MIC � case studies and mechanisms
Biofouling of Titanium � biofilm studies
Biofouling of Titanium- biomineralization and corrosion aspects
MIC � Failure analysis.
MIC � Prevention and control.
Implant materials and corrosivity of human body
Medical implants - status and developments
Microbially induced concrete corrosion
Metallurgical properties influencing corrosion
Laboratory experiments in corrosion engineering � I
Laboratory experiments in corrosion engineering � II
113108052
Metallurgy and Material Science
Diffusion in solids
Dr. Aloke Paul
Web
IISc Bangalore
Select
Concept of free energy, enthalpy and entropy
Gibb�s free energy change with temperature in a single component system
Thermodynamic parameters in a binary system
Thermodynamics and phase diagrams
Concept of the chemical potential and the activity of elements
Point defects: Equilibrium vacancy concentration in a pure element.
Equilibrium concentration of interstitial atoms
Defects in the ordered phases
Calculation of thermodynamic parameters
Fick�s laws of diffusion and thin film solution
Solution in sem- infinite diffusion couples (error function analysis)
Solution for homogeneization (separation of variables)
Diffusion under the thermodynamic driving forces
Driving force for diffusion and Fick�s laws of diffusion
Product phase formations because of diffusion in real systems
Diffusion process as a tool to make products
Definition and description of different diffusion terms
Interstitial diffusion
Concept of random walk
Substitutional diffusion
Activation energy for diffusion
Orientation dependence
Diffusion in the ordered phases
Matano-Boltzmann analysis
Calculation of diffusion parameters using the Matano-Boltzmann analysis
Den Broeder and Wagner�s approach
Problem of finding the initial contact plane
Effect of molar volume in a hypothetical diffusion couple
The Kirkendall effect
The intrinsic diffusion coefficients: Darken analysis and the van Loo relation
Integrated diffusion coefficient
Calculations of the integrated diffusion coefficients
Tracer diffusion coefficient and the vacancy wind effect
Recent developments on the Kirkendall effect
Physico-chemical approach
Grain boundary diffusion
Ternary phase diagrams
Ternary and multicomponent diffusion
Intrinsic, integrated and the average diffusion coefficients
Phase diagram determination by the diffusion couple technique
113108054
Metallurgy and Material Science
Introduction to Crystallographic texture and related phenomenon
Dr. Satyam Suwas
Web
IISc Bangalore
Select
Introduction to texture
Basic crystallography
Basics of X-ray diffraction
Introduction to pole figures
Macro- and Micro- texture
Measurement of macro-texture
Texture measurement by X-rays
Limitations of X-ray method of texture measurement
Measurement of micro-texture
Microtexture measurement in SEM-EBSD
Applications of EBSD
Three dimensional texture analysis Lecture 1
Three dimensional texture analysis Lecture 2
Three dimensional texture analysis Lecture 3
Deformation Mechanism
Basics of deformation
Theory of polycrystal deformation
Taylor's approach
Modeling of deformation texture_Taylor type
Modeling of deformation texture_Other approaches
Texture development during processing
Texture of BCC materials
Texture of HCP materials
Fundamentals of annealing texture and Texture of FCC materials
Theories of annealing texture
Annealing texture of metals and alloys
Texture in thin films
Texture in ceramics
Texture_Mechanical properties-I
Texture_Mechanical properties-II
113108055
Metallurgy and Material Science
Metals Biotechnology
Prof. K.A. Natarajan
Web
IISc Bangalore
Select
Foreword
Biology � Materials Interface And Biomaterials Processing
Biogenesis Of Metals And Minerals
History And Methods In Biohydrometallurgy
Microorganisms In Biohydrometallurgy
Reactor Bioleaching And Developments In Bioleaching Of Concentrates
Bioleaching Mechanisms
Bacterial Attachment To Minerals
Metal Toxicity In Leaching Bacteria
Development Of Metal-tolerant Acidithiobacillus ferrooxidans
Biohydrometallurgy Of Copper � General Principles, Mechanisms And Microorganisms
Biohydrometallurgy Of Copper � Dump And Heap Leaching
Biohydrometallurgy Of Copper � Modern Developments
Bioleaching Of Nickel From Sulfides And Laterites
Heap Bioleaching Technology For Nickel
Bioleaching Of Zinc Sulfide Ores And Concentrates
Biohydrometallurgy Of Uranium � Microorganisms And Mechanisms
Biohydrometallurgy Of Uranium � Dump, Heap and In situ Leaching
Biohydrometallurgy Of Uranium � Industrial Aspects And Remediation
Biotechnology For Gold � Biogenesis, Microorganisms And Gold Nanobiotechnology
Biotechnology For Gold � Biooxidation Of Refractory Sulfidic Concentrates
Biotechnology For Gold � Recent Developments
Biomineralization and Bioprocessing of Ocean ferromanganese nodules
Bioprocessing Of Industrial Wastes
Electrochemistry Of Sulfide Minerals With Respect To Bioleaching
Galvanic And Electrobioleaching Of Sulfide Minerals
Electrobioleaching For Mixed Sulfides And Ocean Nodules
Principles Governing Microbe-Mineral Interfacial Phenomena
Biobeneficiation Of Sulfide Minerals Using Acidithiobacillus Bacteria
Biobeneficiation Of Sulfide Minerals Using Paenibacillus Polymyxa
Biobeneficiation Of Iron Ores � Bacillus subtilis, SRB And Yeasts
Biobeneficiation Of Iron Ores Using Paenibacillus Polymyxa
Alumina Separation And Environmental Control In Iron Ore Beneficiation
Biobeneficiation Of Industrial Minerals
Microorganisms In Biofouling And Biocorrosion
Biofilms And General Mechanisms In Biocorrosion
Biocorrosion And Biofouling � Mechanisms, Failure Analysis And Control
Biomaterials And Human Implants
Acid Mine Drainage � Mechanisms And Control
Bioremediation Technologies In Mining
Industrial Aspects And In Situ Remediation
Experimental Determination Of Acid Mine Drainage
Bioremediation Using Sulfate Reducing Bacteria - Copper, Iron, Zinc And Arsenic
LaborLaboratory Experiments In Metals Biotechnology - I
Laboratory Experiments In Metals Biotechnology - II
Laboratory Experiments In Metals Biotechnology - III
References
113104012
Metallurgy and Material Science
Optoelectronic Materials and Devices
Prof. Deepak Gupta Prof. Monica Katiyar
Video
IIT Kanpur
Select
Lecture 1: Conductivity of materials, Drude’s theory and its failures
Lecture 2 : Free electron theory
Lecture 3: Free electron theory
Lecture 4: Crystal structure, Reciprocal lattice I
Lecture 5: Reciprocal lattice II, Brillouin zone and Bragg’s diffraction condition
Lecture 6: Electrons in a crystal, Bloch’s electron
Lecture 7: Free electron band diagrams in an empty lattice
Lecture 8: Effect of periodic potential, Origin of band-gap through Kronig-Penny model
Lecture 9: Electron dynamics
Lecture 10: Conduction in relation to band diagrams
Lecture 11: Semiconductor E-k diagrams and their material properties
Lecture 12: Equilibrium carrier statistics in semiconductors: density of states, fermi function and population density in bands
Lecture 13: Equilibrium carrier statistics in semiconductors: qualitative examination of carrier densities in conduction and valence bands
Lecture 14: Equilibrium carrier statistics in semiconductors: quantitative examination of carrier densities in intrinsic semiconductor
Lecture 15: Doping in semiconductors
Lecture 16: Equilibrium carrier statistics in semiconductors: complete ionization of dopant levels
Lecture 17: Equilibrium carrier statistics in semiconductors: carrier freeze out
Lecture 18: Semiconductor junctions in band-diagrams
Lecture 19: Linear dielectric behavior
Lecture 20: Non-linear dielectric behavior
Lecture 21: Carrier recombination-generation-I: band-to-band transition
Lecture 22: Carrier recombination-generation –II: Other mechanisms
Lecture 23: R-G statistics via R-G centers
Lecture 24: Optoelectronic materials and bandgap engineering
Lecture 25: Optical properties of materials
Lecture 26: Optical properties of single interfaces: Fresnal reflection coefficients
Lecture 27: Optical Properties of two interfaces: thin film case
Lecture 28: Drift
Lecture 29: Diffusion
Lecture 30: Continuity Equation
Lecture 31: Resistor and diode (p-n junction)
Lecture 32: Fundamentals of p-n junction
Lecture 33: Fundamentals of p-n junction contd.
Lecture 34: Solar cells
Lecture 35: Microelectronics processing
Lecture 36: MOS capacitor
Lecture 37: Transistor
Lecture 38: Organic Electronics
Lecture 39: Organic Light Emitting Diodes
Lecture40: Organic Solar Cells and Organics Thin Film Transistors
113106062
Metallurgy and Material Science
Electronic materials, devices, and fabrication
Prof. Parasuraman S
Video
IIT Madras
Select
Metals, semiconductors, and insulators
Introduction to semiconductors
Density of states and Fermi-Dirac statistics
Assignment 1 - Bonding, DOS, and Fermi statistics
Intrinsic semiconductors
Intrinsic semiconductors - conductivity
Assignment 2 - Intrinsic semiconductors
Extrinsic semiconductors
Extrinsic semiconductors - Fermi level
Extrinsic semiconductors - conductivity
Assignment 3 - Extrinsic semiconductors
Metal-semiconductor junctions
Assigment 4 - Metal-semiconductor junctions
pn junctions in equilibrium
pn junctions under bias
pn junction breakdown and heterojunctions
Assignment 5 - pn junctions
Transistors
MOSFETs
Assignment 6 - transistors
Optoelectronic devices: Introduction
Optoelectronic devices: LEDs
Optoelectronic devices: LASERs
Optoelectronic devices: photodetector
Optoelectronic devices: solar cells
Assignment 7 - optical properties
Assignment 8 - optoelectronic devices
Semiconductor manufacturing: Introduction
Si wafer manufacturing
IC device manufacturing: overview
Layering: thermal oxidation
Doping: thermal and ion implantation
Lithography
Etching and deposition (growth)
Metallization and polishing
Process and device evaluation
Productivity and process yield
Clean room design and contamination control
Devices and IC formation
IC circuit logic and packaging
113105023
Metallurgy and Material Science
Principles of Physical Metallurgy
Prof. R.N. Ghosh
Web
IIT Kharagpur
Select
Principles of Physical Metallurgy: an introduction to the course content
Atomic Bonds
Crystal structure & atomic packing
Stereographic projection: concept and application
Experimental Tools & Techniques I
Experimental Tools & Techniques II
Solidification of pure metal
Deformation of pure metal
Deformation of Pure Metals II
Crystal Defects in Metals I
Crystal defects in metals II
Crystal defects in metals III
Crystal defects in metals IV
Crystal defects in metals V
Diffusion in solids I
Diffusion in solids II
Diffusion in solids III
Solidification & Binary Phase Diagrams I
Solidification & Binary Phase Diagrams II
Solidification & Binary Phase Diagrams III
Solidification & Binary Phase Diagrams IV
Solidification & Binary Phase Diagrams V
Iron Carbon System I
Iron � carbon system II
Ternary Phase Diagram
Common Binary Alloys
Metal working: deformation processing I
Metal working: Deformation processing II
Precipitation from solid solution I
Precipitation from solid solution II
Heat treatment of steel I
Heat treatment of steel II
Heat Treatment of Steel III
Heat Treatment of steel IV
Heat treatment of steel V
Heat treatment of steel VI
Surface hardening
Structural steel I
Structural steel II
Ultra high strength steel
Preferred orientation
Physical metallurgy of metal joining
113104014
Metallurgy and Material Science
Structure of Materials
Dr. Anandh Subramaniam
Video
IIT Kanpur
Select
Lecture-01 Overview
Lecture-02 Geometry of Crystals: Symmetry, Lattices
Lecture-03 Geometry of Crystals: Symmetry, Lattices
Lecture-04 Geometry of Crystals: Symmetry, Lattices
Lecture-05 Geometry of Crystals: Symmetry, Lattices
Lecture-06 Geometry of Crystals: Symmetry, Lattices
Lecture-07 Geometry of Crystals: Symmetry, Lattices
Lecture-08 Geometry of Crystals: Symmetry, Lattices
Lecture-09 Geometry of Crystals: Symmetry, Lattices
Lecture-10 Geometry of Crystals: Symmetry, Lattices
Lecture-11 Geometry of Crystals: Symmetry, Lattices
Lecture-12 Geometry of Crystals: Symmetry, Lattices (continued) and Miller Indices
Lecture-13 Miller Indices
Lecture-14 Miller Indices (continued) and Crystal Structures
Lecture-15 Crystal Structures
Lecture-16 Crystal Structures
Lecture-17 Crystal Structures
Lecture-18 Crystal Structures
Lecture-19 Crystal Structures
Lecture-20 Crystal Structures
Lecture-21 Crystal Structures (continued) and Defects in Crystals
Lecture-22 Defects in Crystals
Lecture-23 Defects in Crystals
Lecture-24 Defects in Crystals
Lecture-25 Defects in Crystals
Lecture-26 Defects in Crystals
Lecture-27 Defects in Crystals
Lecture-28 Defects in Crystals
Lecture-29 Defects in Crystals
Lecture-30 Diffusion in Solids
Lecture-31 Diffusion in Solids
Lecture-32 Phase Diagrams
Lecture-33 Phase Diagrams
Lecture-34 Phase Diagrams
Lecture-35 Phase Diagrams
Lecture-36 Phase Diagrams
Lecture-37 Phase Transformations
Lecture-38 Phase Transformations
Lecture-39 Phase Transformations
Lecture-40 Phase Transformations
Lecture-41 Phase Transformations
Lecture-42 Phase Transformations
Lecture-43 Phase Transformations
Lecture-44 Phase Transformations
Lecture-45 Phase Transformations
113105025
Metallurgy and Material Science
Processing of Semiconducting Materials
Dr. Pallab Banerji
Video
IIT Kharagpur
Select
Introduction to Electronics Materials
Electrical Conductivity of Materials
Direct and Indirect Band Semiconductors
Doping in Semiconductors
Semiconductor Statistics
Importance of Doping
Diffusion and Ion Implantation - I
Diffusion and Ion Implantation - II
Diffusion and Ion Implantation - III
Elemental Semiconductors
Compound Semiconductors
Bulk Crystal Growth - I
Bulk Crystal Growth - II
Ga As Crystal Growth
Defects in Crystals-I
Defects in Crystals - II
Band Gap Engineering - I
Band Gap Engineering - II
Chemical Vapour Deposition - I
Chemical Vapour Deposition - II
MOCVD
Molecular Beam Epitaxy - I
Molecular Beam Epitaxy - II
p - n Junction
Carrier Transport in P - N Junction
Characterization - I
Characterization - II
Optical Characterization - I
Metal-Semiconductor Contact - I
Metal-Semiconductor Contact - II
Applications of Metal-Semiconductor Contact
Oxidation - I
Oxidation - II
Different Types of Semiconductor - I
Oxidation - I
Oxidation - II
Dielectric Films
Low - K and High - K materials
Metallization
Materials for Photovoltaics
113106066
Department of Metallurgical & Materials Engineering
NOC:Introduction to Reciprocal Space and its use in Solids
Dr. Prathap Haridoss
Video
IIT Madras
Select
Reciprocal space; Definition and Properties
Condition for Diffraction
Worked out examples
Ewald Sphere and lattices in reciprocal space
Wigner Sietz cells and Brillouin Zones
Worked out exmaples
Brillouin Zones
E Vs K
Week 3 Worked out examples
Reciprocal space as Fourier transform of real lattice
Alternate notation of reciprocal space
113106065
Department of Metallurgical & Materials Engineering
NOC:Fundamentals of electronic materials and devices
Prof. Parasuraman S
Video
IIT Madras
Select
Electronic Materials
Semiconductors: Introduction
Electron statistics in a solid
Worked numericals on week 1 lessons
Intrinsic semiconductors
Intrinsic semiconductors - conductivity
Optional - worked assignment on intrinsic semiconductors
Extrinsic semiconductors: Introduction
Extrinsic semiconductors - Fermi level
Extrinsic semiconductors - mobility
Worked assignment on extrinsic semiconductors
Metal-semiconductor junctions
pn junctions in equilibrium
Optional - worked assignment on metal-semiconductor junctions
pn junctions under bias
Junction breakdown and heterojunctions
Worked assignment on pn junctions
Transistors - overview
MOSFETs
Worked assignment on transistors
Optoelectronic devices: Introduction
Light emitting diodes
Solid state semiconductor lasers
Optional - worked assignment on optical properties
Photodetectors
Solar cells
Worked assignment on optoelectronic devices
113106067
Department of Metallurgical & Materials Engineering
NOC:Analysis and Modeling of Welding
Dr. G. Phanikumar
Video
IIT Madras
Select
Introduction to fusion welding processes: part 1/2
Introduction to fusion welding processes: part 2/2
Heat sources part 1/2
Heat sources part 2/2
Heat removal
Thermal Modeling Part 1/2
Thermal Modelling - Part 2/2
Zones in a weldment
Analytical Solutions to Weld Thermal Field
Conduction to Keyhole mode
Fluid flow modelling - part 1/2
Fluid flow modelling - part 2
Solute transfer modelling - part 1/2
Solute transfer modelling - part 2/2
Solute segregation profile - part 1/2
Solute segregation profile - part 2/2
Microstructure Formation in Fusion Welds
Numerical Solutions to Thermal Field and Fluid Flow in Welding - Part 1
Numerical Solutions to Thermal Field and Fluid Flow in Welding - Part 2
Dissimilar Welding
113106064
Department of Metallurgical & Materials Engineering
NOC:Fundamentals of optical and scanning electron microscopy
Dr. S. Sankaran
Video
IIT Madras
Select
MM03- Lecture 1- properties of light
MM03- Lecture 2- Magnification and resolution
MM03-Lecture 3-Depth of field
MM03-Lecture 4-Lens defects
MM03-Lecture5-Optical microscope demo.
MM03-Lecture6-Opaque stop microscopy
MM03- Lecture 7- Dark field microscopy
MM03- Lecture 8- Differential interference contrast and fluorescence microscopy
MM03-Lecture 9-Sample preparation techniques for optical microscopy
MM03-Lecture 10-Tutorial problems
MM03-Lecture 10 continuation-Tutorial problems
MM03-Lecture 11-Introduction to scanning electron Microscopy
MM03-Lecture 12- Lens aberrations
MM03-Lecture 13 Interaction between electrons and sample
MM03-Lecture 14-SEM and its mode of operation
MM03- Lecture 15- SEM and its mode of operation- continuation
MM03- Lecture 16- Factors affecting Interaction volume
MM03-Lecture 17-Image formation and interpretation
MM03-Lecture 18- Image formation and interpretation continued
MM03-Lecture 19-Special contrast mechanisms
MM03- Lecture 20-Electron channeling contrast imaging (ECCI)
MM03-Lecture 21- Tutorial Problems on SEM
113104068
Department of Metallurgical & Materials Engineering
NOC:Phase Diagrams in Materials Science and Engineering
Dr. Krishanu Biswas
Video
IIT Kanpur
Select
Introduction to the course
Heterogeneous equilibrium and Free energy Formalism
Concept of Chemical Potential
Phase Rule-I
Phase Rule-II and Single Component Equilibria
Single Component Phase Diagram
Binary Phase Diagram -Isomorphous Diagram
Binary Ispmorphous System
Solidification of Isomorphous Alloys
Free Energy of Binary Isomorphous Phase Diagram
Phase Diagram of Binary Eutectic Systems Edit Lesson
Solidification of eutectic
Solidification of eutectic
Phase diagrams of binary eutectic two terminal solid solution
Phase diagrams of binary peritectic System-I
Phase diagrams of binary peritectic System-II
Phase diagrams of binary peritectic System with intermediate phases
Intermediate Phases
Introduction to Monotectic Phase Diagram
Microstructural Evolution of Monotectic Phase Diagram
Free Energy Composition diagrams for Monotectic systems and Syntactic phase diagram
Quasichemical theory-I
Quasichemical theory-II
Quasichemical theory_Free enegy formalism
Solid state reaction
Introduction to Iron-Carbon phase diagram
Eutectoid transformation in Iron-Carbon phase diagram
Austenite to pearlite transformation in Iron-Carbon phase diagram
Hypo-eutectoid steels
Pearlite Transformation
Martensite Transformation -I
Martensite Transformation -II
Tempering of Martensite
Bainite Transformation
TTT curves for Steel
Cast Iron - I
Cast Iron - II
Ductile Iron & Nodular Iron
Malleable Iron
Alloyed Cast Iron
Phase Diagram for different Solid State Reaction
Phase Diagram of Ceramic
Ternary Phase Diagram-I
Ternary Phase Diagram-II
Ternary Phase Diagram and Tie Line Construction - I
Ternary Phase Diagram and Tie Line Construction - II
Ternary Phase Diagram and Tie Line Construction - III
Ternary Isomorphous Phase Diagram
Ternary Three Phase Equilibria
Three Phase Equilibria in Ternary Systems - I
Three Phase Equilibria in Ternary Systems - II
Solidification Behaviour of Ternary Alloy
Three Phase Equilibria
Ternary Four Phase Equilibria - I
Ternary Four Phase Equilibria - II
Solidification Behaviour of Ternary Eutectic Alloys
Phase Diagram of Ternary Eutectic with Terminal Solid Solution
Ternary Peritectic Reaction
Quasi-peritectic Reaction
Case Studies on Ternary Phase Diagrams-I
Case Studies on Ternary Phase Diagrams-II
