ECAM LaSalle Mechanical and Electrical Engineering Programme
| Données Générales | ||||
|---|---|---|---|---|
| Programme Académique | ECAM LaSalle Mechanical and Electrical Engineering Programme | Responsable(s) Module :
JULIAU Emilien,MORALES Jean |
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| Type d'EC : Cours | Mechanical Design 2 (LIIEEng02EMechanicalDesign2) | |||
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TD : 10h00 TP : 20h00 Travail personnel : 30h00 Durée totale: 60h00 |
Status
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Periode
Semester 2 |
Langue d'enseignement :
English |
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| Objectifs Généraux |
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| By the end of this course, students will be able to: - Interpret a GD&T symbol on a technical drawing - Use functional dimensioning & tolerancing tools - Know the ISO fit system - Use the Chain of dimension method - To design a simple mechanism in function of the requirements - To create a dynamic assembly of part on CAD software CREO - To create a technical drawing on CAD software CREO |
| Contenu |
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| - Geometric Dimensioning and Tolerancing (GD&T): - Definition - How to indicate GD&T on a technical drawing - Meaning of standard contraint: - Form: Straightness, Flatness, Circularity and Cylindricity - Profile: of a line or a surface - Orientation: Angularity, Perpendicularity and Parallelism - Location: Position, Concentricity and Symmetry - Runout: Circular and Total Runout - Writing dimension and tolerance - Functional surfaces Operating conditions clearance conditions tightening conditions play conditions - The I.S.O. fit system Recommended fits Writing the fits on a drawing Fundamental deviations of the shafts and bores - Functional conditions, Functional dimensions, Chain of dimensions method - Computer Aided Design (CAD): - Dynamic assembly - Technical Drawing on CREO - improvement of an existing system - Design of a new mechanism according specifications |
| Prérequis |
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| Mechanical Design 1 |
| Bibliographie |
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| Essential resources: Meerkamm, H. (2018). In Technical pocket guide. essay, Schaeffler Technologies AG & Co. KG. Recommended resources: Bre´al. (1993). Mode´lisation et sche´matisation cine´matiques des me´canismes. Bals, G., & Chevalier Andre´. (1991). Sche´ma cine´matique des me´canismes. Marketing. Barlier, C., Bourgeois Rene´, & Girardin, L. (1998). Me´motech productique: Conception et dessin. Educalivre. Hachette education. (2004). Guide du dessinateur industriel: Pour mai^triser La Communication Technique. Quatremer, R., & Trotignon, J. P. (1985). Pre´cis de construction me´canique. AFNOR. Myszka, D. H. (2005). Machines and mechanisms: Applied Kinematic Design. Pearson/Prentice Hall. Kalpakjian, S., & Schmid, S. R. (2020). Manufacturing Engineering and Technology. Pearson. Madsen. (2002). Engineering drawing and design. Delmar/Thomas Learning. Kalpakjian, S., & Schmid, S. R. (2020). Manufacturing Engineering and Technology. Pearson. Groover, M. P. (2021). Fundamentals of modern manufacturing: Materials, processes, and systems. Wiley. |
| Évaluation(s) | |||
|---|---|---|---|
| N° | Nature | Coefficient | Objectifs |
| 1 | Practical work | 0,20 | CAD practical work evaluated |
| 2 | Project | 0,25 | In group design of a solution to a mechanical problem on a robot of the Gene Hass Center |
| 3 | Written exam | 0,45 | Final exam in which students will be evaluated on their abality: - To interpret GD&T symbol on technical drawing - To use the chain of dimension method - To analyse an existing mechanism - To draw a technical solution to improve a mechanism |
| 4 | Continuous Assessment | 0,10 | Students will complete a quiz at the beginning of each session, on the topic of the previous session |