ECAM LaSalle Mechanical and Electrical Engineering Programme
| General Data | ||||
|---|---|---|---|---|
| Academic program | ECAM LaSalle Mechanical and Electrical Engineering Programme | Module Manager(s) :
CARON Nicolas,JULIAU Emilien,JUSTON Axel |
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| EC Type : Lectures | Manufacturing Processes (LIIEEng02Eprocesses) | |||
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Lab Work : 12h00 Lectures : 4h00 Individual work : 16h00 Total duration: 32h00 |
Status
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Period
Semester 2 |
Teaching language :
English |
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| General objectives |
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| By the end of this course, students will be able to: -Understand the basic elements of manufacturing processes ( cutting parameters, GDT, machines, CNC, ISO CODE, meteorology and control ) -Be capable to use the GENHASS CENTER machines ( Turning, milling, MMT , meteorology , measurement tools ) -Be capable to manufacture simple mechanical pieces |
| Content |
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| INTRODUCTION TO MANUFACTURING: -Fundamentals Manufacturing processes ( turning , milling ) -Cutting parameters -Engineering metrology and instrumentation -Numerical control machining -GDT ( geometrical dimension and tolerencing) -Machining operations and machine tools : machining and part geometry, turning and related operations, drilling and related operation, milling Cutting-tool technology: tool life, tool materials, tool geometry ? Surface texture: Two dimensional METROLOGY o Geometrical and surface profile Roughness parameters o Measuring length o Filters and cut off o Amplitude parameter o The different types of profiles ( ISO3247) o Analyze experimental data of roughness and waviness using the surface state measurement Lab Work: Turning and Related Operations Milling and Related Operations Measurement of Surface state Coordinate measuring machine (CMM) Computer-aided manufacturing control ( for milling ) |
| Corequis |
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| Mechanical Design 1 |
| Bibliographie |
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| Essential resources: None 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. |
| Assessment(s) | |||
|---|---|---|---|
| N° | Nature | Coefficient | Observable objectives |
| 1 | Written exam | 0,5 | Final exam in which students will be evaluated on their ability to understand the mafufacturing processes |
| 2 | Practical work | 0,5 | Pratical work in which students will be evaluated on their therorical preparation of the lab and the work during lab |