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Nov 21, 2024
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ME 309 - Intermediate Mechanics of Materials2 lecture hours 2 lab hours 3 credits Course Description This course continues the study of the mechanics of deformable bodies. Topics include statically indeterminate structures, failure theories, fatigue, stress and strain, analysis using stress functions, and design of compression members. Laboratory topics include experiments to reinforce stress/strain behavior topics, the photoelastic method and design projects. (prereq: ME 207 ) Course Learning Outcomes Upon successful completion of this course, the student will be able to:
- Be familiar with several static failure criteria and be able to apply an appropriate criterion for a given material/stress state
- Be familiar with column design codes (steel, aluminum, and timber) and be able to design compression members
- Solve statically indeterminate problems
- Know how to find solutions for thin-wall pressure vessels loading and non-circular members under torsion loading
- Understand the assumptions inherent in approximate theories of stress and strain
- Have completed design exercises in which iterations were required to find an acceptable solution
Prerequisites by Topic
- Basic strength of materials, statics, integral and differential calculus
Course Topics
- Review of fundamental mechanics of materials topics (2 classes)
- Static failure theories (6 classes)
- Buckling and Column design (6 classes)
- Beam deflection by moment-area method (2 classes)
- Statically indeterminate structures (2 classes)
- 3-D Hooke’ Law, Stress and Strain (2 classes)
- Thin and thick walled pressure vessels (2 classes)
- Torsion of non-circular across-section (3 classes)
Laboratory Topics
- Modulus and Column Buckling
- Pressure vessel
- Deflection of a Statically Indeterminate Beam
- Non-Circular Torsion
Coordinator Robert Rizza
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