Number of hours
- Lectures 10.0
- Projects -
- Tutorials 18.0
- Internship -
- Laboratory works -
- Written tests 4.0
ECTS
ECTS 0.3
Goal(s)
- Design and check isostatic structural elements under simple and compound loads.
THIS COURSE IS FULLY DELIVERED IN APP (PROJECT-BASED LEARNING)
Content(s)
1. System Statics
1.1 Introduction and definitions
1.2 Links
1.3 Isostaticity hypostaticity hyperstaticity hyperstaticity
1.4 Fundamental Principle of Statics
1.5 Applications (TD)
2. Internal forces: cohesion torsor
2.1 Cohesion torsor
2.2 Solicitations
2.3 Drawing of the diagrams of the solicitations
2.4 Applications (TD)
3. Geometric characteristics of the sections
3.1 Static moments and surface centres
3.2 Quadratic moments and produced moments
3.3 Polar moments
3.4 Axis change formulae: Huygens' theorem
3.5 Forms
3.6 Applications (TD)
4. Theories of beams: fundamental assumptions
4.1 Material assumptions
4.2 Deformation assumptions
4.3 Expense assumptions
4.4 Consequences
5. Normal stresses and deformations
5.1 Compression tension
5.2 Pure bending - single bending
5.3 Deflected bending
5.4 Compound bending
5.5 Applications (TD)
6. Tangent constraints
6.1 Highlighting - experimentation
6.2 Theoretical analysis
6.3 Applications (TD)
- Concepts of forces and moments
- Mathematical tools (matrix calculation, vector products, differential equations, torsors)
Test
CC, EXAM, APP
Calendar
The course exists in the following branches:
- Curriculum - GGC - Semester 5
Additional Information
Course ID : KAGG5M10
Course language(s): 
You can find this course among all other courses.
Bibliography
Introduction à l'analyse des structures. Auteurs : Marc-André Studer et François Frey.
Comprendre simplement la résistance des matériaux. Auteurs : François Fleury et Rémy Mouterde. Edition du moniteur.