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Search Results
| Name | Grades | Rating | |||
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Not teaching in Spring 2026 | |||||
MECH 6356 (Overall) | |||||
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MECH 6356 III Ryu | |||||
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Search Results
| Name | Grades | Rating | |||
|---|---|---|---|---|---|
Not teaching in Spring 2026 | |||||
MECH 6356 (Overall) | |||||
A- | |||||
MECH 6356 III Ryu | |||||
A- | |||||
Fracture Mechanics
MECH 6356
Erik Jonsson School of Engineering and Computer Science
This course provides an introduction to analytical and experimental techniques for material failure by crack initiation and growth. Topics include fracture mechanics of brittle and ductile materials, asymptotic stress field in elastic and elastic-plastic materials, fracture criteria, fracture by cleavage, void growth, cohesive zone models, crack deflection, time-dependent fracture, dynamic fracture, and fatigue crack growth and life prediction. 3 credit hours.
Prerequisite: MECH 6306 or MECH 6350.
Offering Frequency: Every two years
Grades: 14
Median GPA: A-
Mean GPA: 3.406
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Fracture Mechanics
MECH 6356
Erik Jonsson School of Engineering and Computer Science
This course provides an introduction to analytical and experimental techniques for material failure by crack initiation and growth. Topics include fracture mechanics of brittle and ductile materials, asymptotic stress field in elastic and elastic-plastic materials, fracture criteria, fracture by cleavage, void growth, cohesive zone models, crack deflection, time-dependent fracture, dynamic fracture, and fatigue crack growth and life prediction. 3 credit hours.
Prerequisite: MECH 6306 or MECH 6350.
Offering Frequency: Every two years
Grades: 14
Median GPA: A-
Mean GPA: 3.406
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