Mechanics of Building StructuresIII
| Numbering Code | U-ENG24 34022 LJ74 | Year/Term | 2022 ・ First semester | |
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| Number of Credits | 4 | Course Type | Lecture | |
| Target Year | Target Student | |||
| Language | Japanese | Day/Period | Tue.2・Wed.2 | |
| Instructor name |
TAKEWAKI IZURU (Graduate School of Engineering Professor) OOSAKI MAKOTO (Graduate School of Engineering Professor) (Graduate School of Engineering Associate Professor) KOHEI FUJITA (Graduate School of Engineering Associate Professor) HAYASHI KAZUKI (Graduate School of Engineering Assistant Professor) |
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| Outline and Purpose of the Course | Slope-deflection method and moment distribution method. Force method and displacement method (stiffness method). Matrix method for structural analysis. Principles of virtual work and energy methods. Fundamental theory of structural analysis and theory of plastic analysis of frames. | |||
| Course Goals | Study force method, displacement method (stiffness method) and matrix method for structural analysis. In addition study slope-deflection method and theory of plastic analysis of frames. | |||
| Schedule and Contents |
Fundamental theory of structural analysis and slope-deflection method, 4 classes, Frame analysis model and governing equation for slope-deflection method. Moment distribution method, 1 class, Moment distribution method without nodal lateral displacement. Three-dimensional frame, 2 classes, Plane frames with equal horizontal displacements. Shear force distribution formula. Structural design of building frames. Displacement method and force method, 9 classes, Member stiffness matrix and system stiffness equation for truss and moment-resisting frame. Treatment of mid-span loads. Principles of virtual work, 5 classes, Principle of virtual displacement. Unit virtual displacement method and stiffness method. Principle of virtual force. Unit virtual force method. Principles of energy methods, 3 classes, Stationary and minimum principles of total potential energy and complementary energy. Plastic limit analysis and elastic-plastic analysis, 5 classes, Load-deformation curve for an elastic-perfectly plastic beam, plastic hinge, plastic collapse, virtual work equation, fundamental theorem for plastic limit analysis, plastic limit analysis of moment resisting frame. Feedback using term exam, 1 class, Conduct feedback using term exam through KULASIS |
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| Evaluation Methods and Policy | Term examination | |||
| Course Requirements | None | |||
| Study outside of Class (preparation and review) | The exercise problems at the end of chapters of the text should be solved in parallel to the class advancement. | |||
| Textbooks | Textbooks/References | T.Nakamura (ed.) ‘Mechanics of building structures II: Illustrative description and exercises’, Maruzen. | ||
| 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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| Related URL | ||||
