5.00 credits
30.0 h + 30.0 h
Q2
Teacher(s)
Contino Francesco; Fisette Paul; Raucent Benoît; Servais Thomas (compensates Raucent Benoît);
Language
French
Learning outcomes
At the end of this learning unit, the student is able to : | |
1 | In consideration of the reference table AA of the program "Masters degree in Mechanical Engineering", this course contributes to the development, to the acquisition and to the evaluation of the following experiences of learning:
|
Content
The course aims at acquiring basic knowledge in kinematics and functional analysis of mechanisms. It is based on a theoretical course and on a practical and deductive approach. In the practical activities, students have to disassemble and reassemble a complex mechanical device (a car engine) which allows them to touch mechanical components, to study their interdependence and to analyze their functioning. Then, students must thoroughly analyze a mechanical sub-assembly. They must make a dimensional survey, a functional study and a dimensioning of all the components, which leads to the drawing of an operating diagram and shop drawings made with a CAD software. Finally, the students must dimension a component of the engine.
The topics covered in the course are: reminders of three-dimensional kinematics, fundamental notions of kinematics of mechanisms, friction, arcing, operation of various assemblies and transmissions, disassembly and functional analysis of mechanisms, taking measurements of mechanical parts, making sketches and computer-aided technical drawings.
Translated with www.DeepL.com/Translator (free version)
The topics covered in the course are: reminders of three-dimensional kinematics, fundamental notions of kinematics of mechanisms, friction, arcing, operation of various assemblies and transmissions, disassembly and functional analysis of mechanisms, taking measurements of mechanical parts, making sketches and computer-aided technical drawings.
Translated with www.DeepL.com/Translator (free version)
Teaching methods
The activities are organized as follows:
Eleven or twelve two-hour lectures for the theoretical part
A one (or two) day laboratory conducted by small groups of students
Two mini-projects, carried out in small groups, including introductory theory, restructuring and consultancy session
Eleven or twelve two-hour lectures for the theoretical part
A one (or two) day laboratory conducted by small groups of students
Two mini-projects, carried out in small groups, including introductory theory, restructuring and consultancy session
Evaluation methods
- For the theory course as well as for half of the points of the dimensioning mini-project, students will be evaluated individually in a written exam.
- For the mini-projects and the laboratory, students will be evaluated as a group on the basis of the associated reports and an interview with the teachers.
- The theory course counts for half of the points in the final grade.
Online resources
Bibliography
Des ouvrages de références obligatoires :
- Hazard C., Ricordeau A., Corbet C., Méthode Active de Dessin Technique, Casteilla, 2003
- Barlier C., Bourgeois R., Mémotech - Conception et dessin, Educalivre, 1998
- Fanchon J.L., Guide des Sciences et Technologies Industrielles, Nathan, 2004
- Heisler H., Vehicle and Engine Technology, Elsevier, 1999
- Jensen C., Helsel J., Engineering Drawing and Design, McGraw-Hill, 2000
Faculty or entity
MECA