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Kang, Youn-Bae, Kim, Nack Joon, Kim, Sung-Joon, and Suh, Dong Woo

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.

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What's inside

Syllabus

Microstructure and phase transformation in steels I: Fundamentals
In the following 3 courses, microstructure and phase transformation in steels will be discussed in detail with specific examples. This course in particular, covers the basic terminology, general explanation on iron-carbon system and concepts you must know to understand the phase transformation of steels.
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Microstructure and phase transformation in steels II: Non-equilibirum microstructure in steel
This course explains the non-equilibrium microstructure, and related displacive transformation in steels. Phenomenological theory on martensite transformation will be introduced, and other concepts such as Ms temperature and bainite microstructure will be covered as well.
Microstructure and phase transformation in steels III: Role of alloying elements in steels
Material design based on alloying is covered in this course. Role of alloying elements in steels with respect to the control of microstructure and mechanical properties will be discussed in detail. Influence of alloying elements on phase stability, transformation kinetics, and strengthening of steels is discussed.
Properties of steels and their applications I
In the following 3 courses, different types of steels will be introduced with their properties and applications. This course typically covers some of the first generation steels containing conventional low strength steels and HSLA (high strength low alloy) steels. Detailed explanation on the microstructures and related properties will be treated.
Properties of steels and their applications II
Characteristics of acicular ferrite, micro-alloyed carbon steels, and multiphase steels will be discussed with information on their production and applications. Martensitic steels and effect of various heat treatments will also be discussed.
Properties of steels and their applications III
This course introduces advanced steels such as TWIP steels, and light weight steels, and explains some other steels of pearlitic steels, Si steels and tool steels. Also, property requirements for automobile parts and low temperature applications are treated.
Stainless steels
This course covers from the fundamental aspects to the production, physical metallurgy, corrosion and mechanical properties of stainless steels. Detailed explanation on the microstructures, corrosion and mechanical properties of different types of stainless steels will be treated.

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Explores steel, which is a material with wide-ranging property applications in industry
Taught by four instructors with expertise in the field of steel metallurgy and science
Develops a strong understanding of steel's microstructure and phase transformation, which is essential for understanding its properties and applications
Examines the properties and applications of different types of steels, including conventional low strength steels, HSLA steels, acicular ferrite, micro-alloyed carbon steels, multiphase steels, martensitic steels, TWIP steels, light weight steels, pearlitic steels, Si steels, and tool steels
Covers the fundamental aspects of stainless steels, including their production, physical metallurgy, corrosion, and mechanical properties
Requires no explicit prerequisites and is a good starting point for learners interested in steel metallurgy and science

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Reviews summary

Highly rated ferrous technology course

Learners say that this Ferrous Technology II course was excellent and well-received. Reviews overwhelmingly praised the organized, engaging lectures and knowledgeable instructors. Many commented on the useful and informative content, with some saying they gained valuable knowledge. The quality of this course was highly appreciated by learners, with some expressing gratitude for the effort put in by the course staff.
Clear organization with good continuation of prior material
"Organized well and good continuation of FT-I"
"Very important information was presented in a very smooth way"
"The course structure is designed to cover very important and relevant topics in a very comprehensive manner."
Expanded knowledge of ferrous technology and its applications
"This course truly shows an insight to the ferrous technology concepts and made easy to understand"
"It's great option for student who desired to get deeper knowledge about ferrous alloys especially steels"
"The course was exceptionally well defined and learnable. I can relate everything learned by this course at industrial level."
Knowledgeable and engaging instructors
"Very good lecturers with excellent slides for easily understand."
"Regarding alloy steels, very nicely explained."
"I learned alot and it is worth the time."
Comprehensive coverage of ferrous technology concepts
"Absolutely Useful !!!!!!!! really very informative."
"It contains very important information and a lot of it."
"Well-researched and prepared."
Occasional language difficulties and small font size
"The disadvantage of this course is the bad language of the presenting professors."
"Sometimes the text that accompany the graphs shown is too small in size to be read in the computer screens."
"It could be much more better if provided with some video demonstrations"

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Ferrous Technology II with these activities:
Review metallurgy basics
Review the basics of metallurgy to make learning about steels easier.
Browse courses on Metallurgy
Show steps
  • Read through notes or textbooks on basic metallurgy concepts
  • Complete practice problems or exercises related to metallurgy
Review iron-carbon phase diagram
Will help you strengthen your grasp of the fundamental concepts of steel by reviewing the iron-carbon phase diagram.
Show steps
  • Review the iron-carbon phase diagram online or in a textbook.
  • Identify and understand the different phases (austenite, ferrite, cementite) and their properties.
  • Understand the effect of temperature and carbon content on the phase transformations.
Compile a collection of resources on steel metallurgy
Having a curated collection of resources on steel metallurgy will provide you with easy access to valuable information sources.
Browse courses on Resources
Show steps
  • Search for articles, books, and videos on steel metallurgy
  • Organize the resources into a central location for easy reference
Ten other activities
Expand to see all activities and additional details
Show all 13 activities
Practice phase diagram analysis
Frequent practice with phase diagram analysis will help you better understand steel microstructure and properties.
Show steps
  • Find practice problems or exercises on phase diagram analysis
  • Solve the problems and check your answers against provided solutions
Problem Set: Microstructure Analysis
These practice drills will help you to apply the concepts from the course to real-world situations, giving you a stronger understanding of the material and how it can be used.
Show steps
  • Solve the following 5 problems:
  • Determine the microstructure of a steel specimen based on its cooling rate.
  • Calculate the volume fraction of a given phase in a steel sample.
  • Predict the mechanical properties of a steel based on its microstructure
  • Explain the role of alloying elements on the microstructure and properties of steel.
Join a study group to discuss steel properties and applications
Engaging with peers in a study group can enhance your understanding of steel properties and applications through discussions and knowledge sharing.
Browse courses on Steel
Show steps
  • Find or create a study group with other students taking this course
  • Meet regularly to discuss the course material, share notes, and ask questions
Join a study group to discuss steel properties and applications
Will enhance your understanding of steel properties and applications by collaborating with peers and discussing real-world examples.
Show steps
  • Find or create a study group with other students in the course.
  • Meet regularly to discuss the course material.
  • Share your knowledge and insights with the group.
Create an Infographic on Steel Properties
This activity will help you to synthesize your understanding of the different properties of steel and how they are used in different applications, helping you to retain the information more effectively.
Show steps
  • Choose a specific type of steel
  • Research the properties of the steel
  • Design an infographic that visually represents the properties of the steel
  • Include information on the applications of the steel
  • Share your infographic with your classmates
Create a presentation on a specific type of steel
Researching and presenting on a specific type of steel will help you to delve deeper into its properties and uses.
Show steps
  • Choose a specific type of steel to research
  • Gather information on the steel's properties, applications, and production process
  • Create a presentation that clearly explains the information you have gathered
Compile Course Notes
Revisiting, organizing, and expanding your notes will help strengthen your understanding of all the material covered in the course, especially if you are someone that learns better from reading.
Show steps
  • Review your lecture notes
  • Review your textbook readings
  • Organize your notes into a logical structure
  • Add additional notes and summaries to clarify any difficult concepts
Create a summary of key concepts from the course
Will help you synthesize your learning from the course and identify areas for further study.
Show steps
  • Review your notes and other materials from the course.
  • Identify the key concepts from each module.
  • Organize the key concepts into a cohesive summary.
Follow a Tutorial on Steel Heat Treatment
Following a tutorial on steel heat treatment will allow you to apply your theoretical knowledge to a concrete project. This will help your knowledge to stick longer term.
Show steps
  • Find a tutorial on steel heat treatment
  • Follow the steps in the tutorial to heat treat a piece of steel
  • Test the properties of the heat-treated steel
  • Compare the properties of the heat-treated steel to the properties of untreated steel
Contribute to open-source projects related to steel metallurgy
Contributing to open-source projects related to steel metallurgy can provide you with practical experience and deepen your understanding of the subject matter.
Browse courses on Open Source
Show steps
  • Search for open-source projects or initiatives related to steel metallurgy
  • Identify areas where you can make meaningful contributions based on your skills and interests
  • Reach out to the project maintainers and express your interest in contributing

Career center

Learners who complete Ferrous Technology II will develop knowledge and skills that may be useful to these careers:
Metallurgical Engineer
Metallurgical Engineers work on the development and production of metal alloys, such as steel. A course on ferrous technology would likely be highly relevant for this role, since it would provide a deep understanding of the properties and behavior of steels, as well as how they can be modified through alloying and heat treatment.
Materials Scientist
Materials Scientists research and develop new materials, and study the properties and behavior of existing materials. A course on ferrous technology would be relevant for this role, since it would provide a deep understanding of the properties and behavior of steels, as well as how they can be modified through alloying and heat treatment.
Mechanical Engineer
Mechanical Engineers design and build machines and other mechanical devices. A course on ferrous technology would be relevant for this role, since it would provide a deep understanding of the properties and behavior of steels, which are commonly used in mechanical engineering.
Civil Engineer
Civil Engineers design and build infrastructure, such as bridges and buildings. A course on ferrous technology would be relevant for this role, since it would provide a deep understanding of the properties and behavior of steels, which are commonly used in civil engineering.
Chemical Engineer
Chemical Engineers design and build chemical plants and other chemical processes. A course on ferrous technology may be useful for this role, since it would provide a basic understanding of the properties and behavior of steels, which are commonly used in chemical engineering.
Manufacturing Engineer
Manufacturing Engineers design and build manufacturing processes. A course on ferrous technology may be useful for this role, since it would provide a basic understanding of the properties and behavior of steels, which are commonly used in manufacturing.
Industrial Engineer
Industrial Engineers design and improve industrial processes. A course on ferrous technology may be useful for this role, since it would provide a basic understanding of the properties and behavior of steels, which are commonly used in industrial processes.
Quality Control Inspector
Quality Control Inspectors ensure that products meet quality standards. A course on ferrous technology may be useful for this role, since it would provide a basic understanding of the properties and behavior of steels, which are commonly used in a variety of products.
Sales Engineer
Sales Engineers sell technical products and services. A course on ferrous technology may be useful for this role, since it would provide a basic understanding of the properties and behavior of steels, which are commonly used in a variety of products.
Technical Writer
Technical Writers create technical documentation, such as manuals and reports. A course on ferrous technology may be useful for this role, since it would provide a basic understanding of the properties and behavior of steels, which are commonly used in a variety of products.
Teacher
Teachers teach students at all levels, from elementary school to university. A course on ferrous technology may be useful for this role, since it would provide a basic understanding of the properties and behavior of steels, which are commonly used in a variety of products.
Librarian
Librarians help people find and access information. A course on ferrous technology may be useful for this role, since it would provide a basic understanding of the properties and behavior of steels, which are commonly used in a variety of products.
Customer Service Representative
Customer Service Representatives help customers with their inquiries and complaints. A course on ferrous technology may be useful for this role, since it would provide a basic understanding of the properties and behavior of steels, which are commonly used in a variety of products.
Data Entry Clerk
Data Entry Clerks enter data into computer systems. A course on ferrous technology is not relevant for this role.
Cashier
Cashiers operate cash registers and process payments. A course on ferrous technology is not relevant for this role.

Reading list

We've selected six books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Ferrous Technology II.
Covers a wide range of topics related to steel microstructure and properties, from basic concepts to advanced topics like phase transformations and strengthening mechanisms. It would serve as an excellent reference for the course, providing detailed information and insights.
Provides a comprehensive overview of the physical metallurgy of iron and steel, covering topics such as the microstructure, phase transformations, and mechanical properties of these materials.
Presents a detailed examination of the microstructure and properties of steels, providing a thorough understanding of the relationship between these factors.
Focuses specifically on stainless steels, providing detailed information on their properties, applications, and design considerations. It would be a useful addition to the course for students interested in understanding the use of stainless steels in various industries.

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