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Search Results
| Name | Grades | Rating | |||
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Not teaching in Spring 2026 | |||||
MSEN 6383 (Overall) | |||||
A | |||||
MSEN 6383 Jiyoung Kim | |||||
A | |||||
Search Results
| Name | Grades | Rating | |||
|---|---|---|---|---|---|
Not teaching in Spring 2026 | |||||
MSEN 6383 (Overall) | |||||
A | |||||
MSEN 6383 Jiyoung Kim | |||||
A | |||||
Modern Physical Metallurgy
MSEN 6383
Erik Jonsson School of Engineering and Computer Science
This course provides a basic understanding of the underlying principles that determine microstructural evolution in bulk materials and thin films during processing, and how microstructure determines their properties and performance in service. The course covers fundamental crystallography, including atomistic crystal structures and defect structures; thermodynamics and phase diagrams; kinetics of phase transformations; alloy and micro-structural engineering; and structure-property relationships that determine mechanical and electrical performance. Additionally, metallization and the reliability of multilevel interconnection and packaging for semiconductor and electronic devices are discussed. 3 credit hours.
Prerequisites: (MECH 5300 and MSEN 5310) or equivalents.
Offering Frequency: Every two years
Grades: 31
Median GPA: A
Mean GPA: 3.839
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Modern Physical Metallurgy
MSEN 6383
Erik Jonsson School of Engineering and Computer Science
This course provides a basic understanding of the underlying principles that determine microstructural evolution in bulk materials and thin films during processing, and how microstructure determines their properties and performance in service. The course covers fundamental crystallography, including atomistic crystal structures and defect structures; thermodynamics and phase diagrams; kinetics of phase transformations; alloy and micro-structural engineering; and structure-property relationships that determine mechanical and electrical performance. Additionally, metallization and the reliability of multilevel interconnection and packaging for semiconductor and electronic devices are discussed. 3 credit hours.
Prerequisites: (MECH 5300 and MSEN 5310) or equivalents.
Offering Frequency: Every two years
Grades: 31
Median GPA: A
Mean GPA: 3.839
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