Mechanics of Building StructuresI
| Numbering Code | U-ENG24 24011 LJ74 | Year/Term | 2022 ・ First semester | |
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| Number of Credits | 2 | Course Type | Lecture | |
| Target Year | Target Student | |||
| Language | Japanese | Day/Period | Fri.1 | |
| Instructor name |
OOSAKI MAKOTO (Graduate School of Engineering Professor) (Graduate School of Engineering Associate Professor) HAYASHI KAZUKI (Graduate School of Engineering Assistant Professor) |
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| Outline and Purpose of the Course | This course presents the fundamentals on the shapes, elements, and design of building structures. Mechanical models, basic concepts and theories, and their applications are shown. Definitions of stress and strain, mechanical properties of structural materials, stress resultants and deformation of bars, theory and application of of statically determinate beams are also given. | |||
| Course Goals | To study fundamentals of mechanics of building structures, which form the basis of studying mechanics of building structures 2 and 3. | |||
| Schedule and Contents |
1. Introduction nd guidance of the course. Role of structural mechanics and fundamentals of statics, (Ohsaki) 2. Displacement, strain, force, moment. Equilibrium equations of free body. (Ohsaki) 3. Deformation process of structural materials, e.g., steel and concrete, under external forces. Definition of elasticity, plasticity, and viscosity. (Ohsaki) 4. Definition of stress and strain. Stress-strain relationship. (Ohsaki) 5. Basic equations for frame analysis. Assumptions and approximations for elementary analysis. (Ohsaki) 6. Definition of stress resultants of beams. (Ohsaki) 7. Statically determinate beams. Methods for finding reaction forces and stress resultants using equilibrium equations for free bodies. (Ohsaki) 8. Derivation of differential equations for beams. Diagrams for axial forces, shear forces, and bending moments. (Ohsaki) 9. Excercise for classes 1-8. (Kimura) 10. Assumption of plane sections. Axial stress due to axial force and bending moment. (Ohsaki) 11. Shear stress due to bending. Shear stress due to torque. (Ohsaki) 12. Section properties and coordinate transformation. (Ohsaki) 13. Stresses in the inclined section. Method using Mohr's circle. (Ohsaki) 14. Excercise for classes 10-13. (Kimura) 15. Final examination/ Learning achievement evaluation. (Ohsaki) |
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| Evaluation Methods and Policy | Term examination | |||
| Course Requirements | None | |||
| Study outside of Class (preparation and review) | Explained during the class. | |||
| Textbooks | Textbooks/References | 構造力学 図説・演習I, 中村恒善, (丸善), ISBN:4-621-03965-2 | ||
| Courses delivered by Instructors with Practical Work Experience |
分類: A course with practical content delivered by instructors with practical work experience |
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