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Material Processing

Approx. 12 hours to complete

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Course Summary

This course provides an introduction to the field of materials science and engineering, with a focus on the fundamental principles that govern the behavior of materials.

Key Learning Points

Learn about the structure and properties of materials, including metals, ceramics, polymers, and composites
Understand the relationship between processing, microstructure, and properties of materials
Explore the applications of materials science across a range of industries, including electronics, energy, and healthcare

Job Positions & Salaries of people who have taken this course might have

Materials Engineer
- USA: $78,000
- India: ₹6,00,000
- Spain: €36,000
Research Scientist
- USA: $85,000
- India: ₹8,00,000
- Spain: €40,000
Product Development Engineer
- USA: $75,000
- India: ₹5,50,000
- Spain: €35,000

Learning Outcomes

Understand the fundamental principles of materials science and engineering
Learn how to analyze and design materials for specific applications
Gain knowledge of the latest research and technologies in the field

Prerequisites or good to have knowledge before taking this course

Basic knowledge of chemistry and physics
Familiarity with calculus and differential equations

Course Difficulty Level

Intermediate

Course Format

Online self-paced
Video lectures
Assignments and quizzes
Community forums

Similar Courses

Introduction to Solid State Chemistry
Introduction to Materials Science

Related Education Paths

Notable People in This Field

Regents' Professor of Earth, Space, and Environmental Sciences at Arizona State University
Professor of Materials Science and Engineering at MIT

Related Books

Description

Have you ever wondered why ceramics are hard and brittle while metals tend to be ductile? Why some materials conduct heat or electricity while others are insulators? Why adding just a small amount of carbon to iron results in an alloy that is so much stronger than the base metal? In this course, you will learn how a material’s properties are determined by the microstructure of the material, which is in turn determined by composition and the processing that the material has undergone.

This is the second of three Coursera courses that mirror the Introduction to Materials Science class that is taken by most engineering undergrads at Georgia Tech. The aim of the course is to help students better understand the engineering materials that are used in the world around them. This first section covers the fundamentals of materials science including atomic structure and bonding, crystal structure, atomic and microscopic defects, and noncrystalline materials such as glasses, rubbers, and polymers.

Outline

Phase Diagrams and Phase Equilibria
1.1 Introduction
1.2 One-Component Phase Diagrams and Gibbs Phase Rule
1.3 Regions of Two Phase Equilibrium
1.4 Additional One-Component Phase Diagrams
1.5 Binary Isomorphous Phase Diagrams
1.6 The Lever Rule
1.7 Phase Fractions
1.8 Equilibrium Cooling Curves
1.9 Equilibrium Isomorphous Diagrams
1.10 Analysis of a Phase Diagram
1.11 Deviations from Ideal Behavior
1.12 Eutectic Phase Diagram
1.13 Determination of Phase Boundaries
1.14 Eutectic Microstructure Development
1.15 Equilibrium Cooling of an Off-Eutectic Alloy
1.16 Equilibrium Cooling of an Off-Eutectic Alloy - Calculations
1.17 Microstructure Development in an Off-Eutectic Alloy
1.18 Invariant Reactions in Two Component Systems
1.19 Peritectic Phase Diagrams
1.20 Analysis of Complex Phase Diagrams
1.21 Monotectic Phase Diagrams
1.22 Phase Separation and Critical Points
1.23 Solid State Reactions
1.24 Summary of Invariant Reactions in Two-Component Systems
1.25 Summary
Learning Outcomes
Consent Form
Get More from Georgia Tech
Supplemental Materials for this Module
Earn a Georgia Tech Badge and CEUs
Quiz 1.1 (Lessons 1.1 - 1.8)
Quiz 1.2 (Lessons 1.9 - 1.12)
Quiz 1.3 (Lessons 1.13 - 1.17)
Quiz 1.4 (Lessons 1.18 - 1.24)

Kinetics of Structural Transformations
2.1 Introduction
2.2 The Concept of a Driving Force
2.3 Homogeneous Nucleation
2.4 Undercooling and the Barrier to Homogeneous Nucleation
2.5 Random Clusters in the Liquid
2.6 Nucleation and Growth
2.7 Wetting
2.8 Heterogeneous Nucleation
2.9 Heterogeneous Nucleation - Spherical Cap Approximation
2.10 Heterogeneous Nucleation - Sodium Acetate Demonstration
2.11 Heterogeneous Nucleation - Applications
2.12 Homogeneous and Heterogeneous Nucleation
2.13 Types of Interfaces
2.14 Johnson, Mehl, and Avrami (JMA) Equation
2.15A Calculations Using the JMA Equation Part 1
2.15B Calculations Using the JMA Equation Part 2
2.16 Application of the JMA Equation
2.17 Developing High Strength Alloys
2.18 The Iron-Carbon System
2.19 Diffusional/DiffusionlessTransformations
2.20 Heat Treating a Plain Carbon Eutectoid Steel
2.21 Formation of Pearlite in Eutectoid Steel
2.22 Formation of Bainite in a Eutectoid Steel
2.23 Formation of Martensite
2.24 Heat Treatments of Austenite Decomposition Products
2.25 Isothermal Transformation (IT) Diagrams for a Eutectoid Steel
2.26 Off-Eutectoid Isothermal Transformation (IT) Diagrams
2.27 4340 Isothermal Transformation (IT) Diagram
2.28 Continuous Transformation (CCT) Diagrams
2.29 Precipitation Hardening in Al-Cu Alloys
2.30 Nonequilibrium Solidification
2.31 Sintering
2.32 Summary
Learning outcomes
Supplemental Materials for this Module
Where to go from here
Quiz 2.1 (Lessons 2.1 - 2.5)
Quiz 2.2 (Lessons 2.6 - 2.10)
Quiz 2.3 (Lessons 2.11 - 2.15)

Summary of User Reviews

Discover the science behind materials with the Material Science and Engineering course on Coursera. Students have praised the course for its engaging content and knowledgeable instructors. One key aspect that many users thought was good is the practical application of the concepts learned in the course.

Pros from User Reviews

Engaging content
Knowledgeable instructors
Practical application of concepts learned

Cons from User Reviews

Lengthy lectures
Challenging assignments
Limited interaction with instructors
No hands-on lab experience

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