Learn to analyze Fe-Fe3C phase diagrams to predict and control steel alloy properties through microstructure and heat treatment analysis.
Learn to analyze Fe-Fe3C phase diagrams to predict and control steel alloy properties through microstructure and heat treatment analysis.
This course cannot be purchased separately - to access the complete learning experience, graded assignments, and earn certificates, you'll need to enroll in the full Materials Science for Advanced Technological Applications Specialization program. You can audit this specific course for free to explore the content, which includes access to course materials and lectures. This allows you to learn at your own pace without any financial commitment.
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English
What you'll learn
Interpret and analyze Fe-Fe3C phase diagrams
Predict steel microstructures based on composition
Understand phase transformation mechanisms
Master heat treatment techniques and applications
Analyze material properties through phase diagrams
Skills you'll gain
This course includes:
1.42 Hours PreRecorded video
2 quizzes
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FullTime access
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There are 5 modules in this course
This course provides a detailed exploration of phase diagrams, with particular emphasis on the Fe-Fe3C system. Students learn to predict microstructures and properties of steel alloys based on composition and heat treatment. The curriculum covers equilibrium and non-equilibrium phase diagrams, phase transformations, and practical heat treatment applications. Special attention is given to the relationship between microstructure and material properties in carbon steel alloys.
Phase Diagrams
Module 1 · 58 Minutes to complete
Model System Fe-Fe3C and Phase Diagrams
Module 2 · 2 Hours to complete
Model System Fe-Fe3C
Module 3 · 3 Hours to complete
Phase Transformations
Module 4 · 5 Hours to complete
Heat Treatments
Module 5 · 5 Hours to complete
Fee Structure
Instructor
Leading Expert in Materials Science and Engineering at Arizona State University
Terry Alford is a distinguished Professor and Associate Director of the School for Engineering of Matter, Transport and Energy at Arizona State University. He earned his Ph.D. in Materials Science and Engineering from Cornell University in 1991 and joined ASU's faculty in 1993. Professor Alford specializes in various aspects of materials science, including X-ray and electron diffraction, semiconductor processing, and the development of advanced materials for integrated circuits. His research focuses on critical topics such as silver and copper metallization, low-k dielectrics for future electronics, and the adhesion properties of sol-gel hydroxyapatite-metal systems for biomedical applications. In addition to his teaching responsibilities, he has contributed significantly to the academic community through numerous publications and research projects aimed at advancing materials characterization and processing techniques. His commitment to education and innovation positions him as a key figure in the field of materials science, helping to shape the future of engineering technologies.
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