Number of hours
- Lectures 18.5
- Projects -
- Tutorials 17.5
- Internship -
- Laboratory works 21.0
- Written tests 3.0
ECTS
ECTS 6.0
Goal(s)
The aim of this course is to give students the necessary knowledge they need to carry out calculations on mechanical structures in linear thermo-elasticity conditions using the Finite-Element Method. The course focuses on solid mechanics in 1D to 3D problems.
At the end of the course, students will have acquired the following skills:
• Acquisition of formalism and basic concepts of Mechanics of Continuum Media - Solids.
• Understanding of the Finite Element Method.
• Calculations of mechanical structures with the use of FEM industrial software like ANSYS Workbench R2019 and others.
Responsible(s)
Content(s)
Lectures: 12 x 1.5 hours = 18 hours
• Continuum Mechanics - Elasticity (6 x 1.5 hours = 9 hours)
• Solid Finite Elements (3 x 1.5 hours = 4.5 hours)
• Engineering Structure Calculations with the Finite-Element Method (3 x 1.5 hours = 4.5 hours)
Tutorials: 12 x 1.5 hours = 18 hours)
• Continuum Mechanics (8 x 1.5 hours = 12 hours)
• Solid Finite Elements (4 x 1.5 hours = 6 hours)
Pratical Work (21 hours)
• Engineering Structure Calculations (6 x 1.5 hours = 9 hours)
• Projects in binomial or trinomial ( 8x 1.5 hours = 12 hours)
Individual work (30 hours)
Final examination: (2 x 1.5 hours = 3 hours)
Prerequisites"Industrial Sciences: Mechanics" course in Semester 1.
- Mathematics and Physics of level L3
- Resistance of Materials of level L3
- Mechanics of Continuous Media level L3
Test
- Final exam
- Assessment of practical work
- Final project
N1 = (E1+CC)/2
N2 = E2
Calendar
The course exists in the following branches:
- Curriculum - Engineer student Master PD - Semester 7
- Curriculum - M1 Industrial Engineering - Semester 7
Additional Information
Course ID : 4GUP0105
Course language(s): 
You can find this course among all other courses.
Bibliography
- Gouri DHAT, Gilbert TOUZOT, Une présentation de la méthode des éléments finis, Collection Universitaire de Compiègne, Maloine S.A. Editeur, 1984.
- S.S. RAO : The finite element method in Engineering, Pergamon Press, Second Edition, 1992.
- O.C. ZIENKIEWICZ, The finite Element Method in Engineering Sciences, Mc Graw-Hill, New York, 3rd Edition, 1977.
Contacts
Head of studies: Thomas Reverdy
Registrar's office
Head of Registrar's office: genie-industriel.scolarite@grenoble-inp.fr
Admissions 1st Year: Valérie Demicheli
Admissions 2nd Year: Sylvie Malandrino
Masters' degree enquiries:
Head of Masters' degree
Jean-François Boujut
Maria Di Mascolo
Secretary's office:
Annabel Jourdan
Maryline Mazzon-Teppoz
genie-industriel.scolarite-master@grenoble-inp.fr
Tel: (+ 33) 4 76 57 47 18
International relations department:
Nadia Dehemchi
Registrar's office
Head of Registrar's office: genie-industriel.scolarite@grenoble-inp.fr
Admissions 1st Year: Valérie Demicheli
Admissions 2nd Year: Sylvie Malandrino
Masters' degree enquiries:
Head of Masters' degree
Jean-François Boujut
Maria Di Mascolo
Secretary's office:
Annabel Jourdan
Maryline Mazzon-Teppoz
genie-industriel.scolarite-master@grenoble-inp.fr
Tel: (+ 33) 4 76 57 47 18
International relations department:
Nadia Dehemchi