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Ferrous Technology II
Master advanced concepts in steel metallurgy, from microstructure and phase transformations to properties and applications of modern steels.
Master advanced concepts in steel metallurgy, from microstructure and phase transformations to properties and applications of modern steels.
This comprehensive course explores the fundamentals and applications of ferrous technology, covering steel microstructure, phase transformations, and alloying effects. Students learn about various steel types including HSLA, TWIP, and stainless steels, their properties, and industrial applications. The curriculum combines theoretical knowledge with practical understanding of steel processing and performance characteristics.
4.8
(313 ratings)
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What you'll learn
Understand steel microstructure and transformations
Analyze effects of alloying elements
Master heat treatment principles
Evaluate mechanical properties
Comprehend stainless steel characteristics
Apply knowledge to industrial applications
Skills you'll gain
This course includes:
242 Minutes PreRecorded video
7 assignments
Access on Mobile, Tablet, Desktop
Batch access
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There are 7 modules in this course
This advanced course covers steel technology through seven comprehensive modules, from fundamental phase transformations to specific steel types and applications. The curriculum progresses through microstructure analysis, alloying effects, and properties of various steel grades, including advanced high-strength steels and stainless steels.
Microstructure and phase transformation in steels I: Fundamentals
Module 1 · 1 Hours to complete
Microstructure and phase transformation in steels II: Non-equilibirum microstructure in steel
Module 2 · 1 Hours to complete
Microstructure and phase transformation in steels III: Role of alloying elements in steels
Module 3 · 1 Hours to complete
Properties of steels and their applications I
Module 4 · 48 Minutes to complete
Properties of steels and their applications II
Module 5 · 1 Hours to complete
Properties of steels and their applications III
Module 6 · 1 Hours to complete
Stainless steels
Module 7 · 1 Hours to complete
Fee Structure
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Instructors
Expert in Steel Metallurgy and Clean Steel Production
Kang, Youn-Bae is a highly regarded professor at Pohang University of Science and Technology (POSTECH) with a focus on materials science and engineering, particularly in the realm of steel metallurgy. He completed his B.S., M.S., and Ph.D. degrees in Materials Science and Engineering at POSTECH, establishing a strong foundation for his career. Since 2009, he has held various academic positions within the Graduate Institute of Ferrous and Eco Materials Technology (GIFT) at POSTECH, where he has contributed significantly to the development of innovative refining processes for steel and the recycling of ferrous scrap. His research interests encompass clean steel production, the physico-chemical properties of molten steel, and thermodynamic modeling, which are crucial for advancing sustainable practices in the steel industry. Kang's expertise is further demonstrated through his numerous publications and active participation in international research collaborations, making him a key figure in promoting advancements in metallurgical processes and education.
Leading Authority in Materials Science and Alloy Design
Kim, Nack Joon is a prominent professor at Pohang University of Science and Technology (POSTECH) and the head of the Microstructure Control Laboratory within the Graduate Institute of Ferrous and Eco Materials Technology (GIFT). He earned his Ph.D. in Materials Science from the University of California, Berkeley, after completing both his B.S. and M.S. in Metallurgical Engineering at Seoul National University. With a distinguished career spanning several decades, Kim has held significant positions, including President of the Korean Institute of Metals and Materials and Director of the Center for Advanced Aerospace Materials. His research expertise focuses on alloy design, particularly magnesium alloys, amorphous alloys, and steel, as well as phase transformations and electron microscopy techniques. As an editor for Scripta Materialia and a prolific author of influential publications, Kim is recognized for his contributions to advancing knowledge in lightweight structural materials and their mechanical properties, positioning him as a leading figure in the field of materials science.
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4.8 course rating
313 ratings
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