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Ecole nationale supérieure de l'Énergie, l'Eau et l'Environnement
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Engineering school in energy, water and environment
Our engineering & master degrees
Our engineering & master degrees

> Studies > E3-STU-COURSES

- 4EUACMP8

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  • Number of hours

    • Lectures : 12.0
    • Tutorials : 12.0
    • Laboratory works : 20.0
    • Projects : -
    • Internship : -
    ECTS : 3.0
  • Officials : Barthelemy HARTHONG

Goals

Provide a general overview of the properties of the main families of materials (in particular mechanical properties) and introduce tools for choosing materials.
Introduce the basics of the theory of the linear elasticity of solid bodies (stress, strain, generalised Hooke's law)
Introduce the use of a finite-element software for design purposes.

Content

16h Initiation to materials (material properties with a focus on mechanical properties: elasticity, visco-elasticity, plasticity, fatigue, etc., normalised tests, main families of materials and typical values of properties, Ashby diagrams)
8h practicals (uniaxial pulling test)
8h basics of the theory of elasticity: stress tensor, strain tensor, generalised Hooke's law, equivalent stress (Mises)
8h practicals: use of finite-element software in the case of linear elasticity, mesh, boundary conditions

Prerequisites

Maths: differential and integral calculus in the case of multivariable functions, Taylor series, solid geometry, gradient, curl, divergence, divergence theorem, Matrix (tensor) calculus, basics of mechanics: 2nd and 3rd laws of Newton, concepts of force and moment

Tests

1 grade TP, 1 grade BE, 1 grade exam

CC 50% + CT 50%

Calendar

The course exists in the following branches:

  • Curriculum - Master's Degree in Engineering GEE - Semester 8
see the course schedule for 2019-2020

Additional Information

Course ID : 4EUACMP8
Course language(s): FR

You can find this course among all other courses.

Bibliography

Love, A treatise on the mathematical theory of elasticity 3rd edition, Cambridge University Press, 1920
Timoshenko, Goodier, Théorie de l'élasticité, Libraire polytechnique Ch. Béranger, 1961
Landau, Lifchitz, Théorie de l'élasticité, Editions Mir 1967
Mase, Continuum Mechanics, Schaum's outline series, McGraw Hill, 1970
Sédov, Mécanique des milieux continus (tome 2), Ch. 9 - théorie de l'élasticité, Editions Mir 1975

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Date of update July 12, 2018

Grenoble INP Institut d'ingénierie Univ. Grenoble Alpes