Coursera

Phase Diagrams I & II (Coursera)

Offered by Arizona State University,
Phase Diagrams I & II (Coursera)

In this course, we will look at phase diagrams and how they are used to determine the state of the material as a function of temperature and composition. We will also investigate how the microstructure and materials properties can be manipulated as a function of temperature and composition. A special focus will be on the eutectic phase diagram.

Class Deals by MOOC List - Click here and see Coursera's Active Discounts, Deals, and Promo Codes.

Course 4 of 4 in the Materials Science for Technological Application Specialization.

What You Will Learn
The use of principles of phase diagrams to predict microstructures and properties of metals and alloys.

Syllabus

WEEK 1
Phase Diagrams I & II
In this course, we will look at phase diagrams and how they are used to determine the state of the material as a function of temperature and composition. We will also investigate how the microstructure and materials properties can be manipulated as a function of temperature and composition. A special focus will be on the eutectic phase diagram.

WEEK 2
Module 1: Diffusion and Its Mechanisms
In this module, we explain the concepts of solubility, solubility limit, saturation and solubility limit lines (solvus) on phase diagrams.

WEEK 3
Module 2: Eutectic Phase Diagrams
The eutectic phase diagram is important for solder ball and inter-metal interconnects in semiconductor industry. In this module we discuss eutectic phase diagrams.

WEEK 4
Module 3: Eutectic Microstructures
In this module, we examine eutectic microstructure and eutectic properties.

WEEK 5
Module 4: Microstructures and Properties
In this module, you will explore hypoeutectic and hypereutectic alloys and their composition and cooling impacts microstructures.

Go to Class
MOOC List is learner-supported. When you buy through links on our site, we may earn an affiliate commission.

Related Courses

Magnetics for Power Electronic Converters (Coursera) Coursera
CIRES, University of Colorado at Boulder

Magnetics for Power Electronic Converters (Coursera)

Engineering Eng: Electronics

This course covers the analysis and design of magnetic components, including inductors and transformers, used in power electronic converters. The course starts with an introduction to physical principles behind inductors and transformers, including the concepts of inductance, core material saturation, airgap and energy storage in inductors, reluctance and magnetic circuit modeling, transformer equivalent circuits, magnetizing and leakage inductance.

Jun 8th 2026
4 Weeks
Magnetic Power Electronics Inductors
Details
Material Behavior (Coursera) Coursera
Georgia Institute of Technology

Material Behavior (Coursera)

Engineering Sci: Physical & Earth Sciences

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.

May 18th 2026
5-12 Weeks
Composition Properties Mechanical Engineering
Details
Structure of Materials (edX) EdX
MIT,MITx

Structure of Materials (edX)

Engineering Sci: Chemistry

Discover the structure of the materials that make up our modern world and learn how this underlying structure influences the properties and performance of these materials. Structure determines so much about a material: its properties, its potential applications, and its performance within those applications. This course from MIT’s Department of Materials Science and Engineering explores the structure of a wide variety of materials with current-day engineering applications.

No sessions available
13-24 Weeks
Materials Structures Diffusion
Details
Diffusion and Mass Transfer (FutureLearn) FutureLearn
Taipei Medical University

Diffusion and Mass Transfer (FutureLearn)

Engineering Science

Master a core field of chemical engineering by learning about transport phenomena like diffusion, convection, and mass transfer. This six-week course from Taipei Medical University (TMU) provides a comprehensive overview of transport phenomena, with a particular focus on diffusion, mass transfer, and convection. Once you’ve understood the fundamentals of all three processes, you’ll learn how to analyse them using coefficient models.

Jun 1st 2026
5-12 Weeks
Chemical Engineering Transport Phenomena Mass Transfer
Details
Sistemas Digitales: De las puertas lógicas al procesador (Coursera) Coursera
Universitat Autònoma de Barcelona

Sistemas Digitales: De las puertas lógicas al procesador (Coursera)

CS: Theory Engineering

En este curso aprenderemos los fundamentos del diseño de los circuitos digitales actuales, siguiendo una orientación eminentemente práctica. A diferencia de otros cursos más "clásicos" de Circuitos Digitales, nuestro interés se centrará más en el Sistema que en la Electrónica que lo sustenta. Este enfoque nos permitirá sentar las bases del diseño de Sistemas Digitales complejos.

Jun 8th 2026
5-12 Weeks
Algorithms Engineering Digital Systems
Details
Material Processing (Coursera) Coursera
Georgia Institute of Technology

Material Processing (Coursera)

Engineering

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.

May 25th 2026
2 Weeks
Thermodynamics Mechanical Engineering Crystal Structures
Details
Ferrous Technology I (Coursera) Coursera
Pohang University of Science and Technology - POSTECH

Ferrous Technology I (Coursera)

Engineering

Steel, ever-evolving material, has been the most preeminent of all materials since it can provide wide range of properties that can meet ever-changing requirements. In this course, we explore both fundamental and technical issues related to steels, including iron and steelmaking, microstructure and phase transformation, and their properties and applications.

Jun 8th 2026
5-12 Weeks
Engineering Steel Microstructure
Details
Crystal Structures and Properties of Metals (Coursera) Coursera
Arizona State University

Crystal Structures and Properties of Metals (Coursera)

Engineering

In this course, we will present atomic bonding and its relation to crystal structure and physical properties. A particular focus will be on the different types of cubic structures. There will be an introduction to planes and Miller Indices. We will discuss the principal planes in the cubic system. Their common crystallographic defects will be shown and discussed. Finally, the tensile test will be used to extract various materials parameters.

Jun 1st 2026
5-12 Weeks
Atomic Bonding Metals Crystal Structures
Details