1MAF2 | Mechanics of materials 2 | Materials and Mechanics - Apprenticeship | S6 | ||||||
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Lessons : 15 h | TD : 15 h | TP : 0 h | Project : 0 h | Total : 30 h | |||||
Co-ordinator : Antoine GUEYDAN |
Prerequisite | |
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- Mathematics: trigonometry, vector product, projection in space - Materials Resistance Course Program 1: Static - Static point and body in space - Static moment and inertia - Balance of external and internal forces, concentrated and distributed - Theorems and methods (Maxwell, parallel axes, lattice sections, shear diagrams and bending moments) |
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Course Objectives | |
- Control the equations constituting the elastic loadings undergone by a part. - Calculate the internal stresses of a loaded object in tension, compression, torsion, shear or flexion and define critical areas (stress concentrations, maximum stresses, Mohr circle) - Dimension a structure respecting the safety coefficients |
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Syllabus | |
1- Constraint concept 2- Axial loading 3- Twist 4- Bending 5- Shear in the beams 6- Deflection of the beams 7- Transformation of stresses and deformations |
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Practical work (TD or TP) | |
The applications are conducted as tutorials (TD). A number of applications on each part of the course is set up | |
Acquired skills | |
- Global control of a static mechanical problem in the elastic domain - Use of mathematical tools to solve a problem effectively - Aspects described in the objectives of teaching |
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Bibliography | |
Mechanics of materials, Global Edition 6 – Beer, Johnson, DeWolf, Mazurek (MacGraw Hill Company) |
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