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| MECA0018-1 | Industrial Forming Processes
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| Duration : | 30h Th, 30h Pr |
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| Number of credits : |
| Bachelor in engineering sciences, civil engineer orientation (Bachelor in engineering sciences, civil engineer orientation), 3rd year | | First semester | | 5 |
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| Bachelor in engineering sciences, civil engineer orientation (Bachelor in engineering sciences, civil engineer orientation), 3rd year | | Toute l'année | | 5 |
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| Master in Mechanical Engineering, in-depth approach, 1st year | | First semester | | 5 |
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| Master en ingénieur civil mécanicien, à finalité spécialisée en technologies durables en automobiles, 1st year | | First semester | | 5 |
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| Master in Mechanical Engineering, specialized approach, 1st year | | First semester | | 5 |
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| Lecturer : | Jean‑François Debongnie |
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Language(s) of instruction :
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| French language |
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Course contents :
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| 1) This course is devoted to manufacturing processes, with and without chips. It is a necessary complement to design, a any designed machine element has to be produced.
2) TABLE OF CONTENTS - Elementary discussion on steel production. Steel classification, following EURONORM and SAE/AISI. Casting, forging, stamping, wire-drawing, ewxtrusion, sheet metal working. Welding, soldering, oxygen-cutting. Elements of powder metallurgy. Metal cutting. Grinding. Lapping, honing, superfinisching, polishing. Unconventional processes : ultrasonic grinding, chemical engraving, electrochemical machining, electro-discharge machining, electron beam, laser machining, water jet machining, plasma cutting. Cutting theory : Piispanen-Merchant model, cutting temperature. Cutting angles, cutting power, tool wear. Tool materials. Roughness prediction. Chip control. Milling : down and up milling, power evaluation. Grinding : equivalent thickness, power consumption, grinding ratio, roughness prediction. |
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Learning outcomes of the course :
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| After this course, the sudent will be able to conceive a pertinent manufacturing process of a mechanical part.
He will also be able to conceive mechanical parts which are easy to produce and thus cheap. |
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Prerequisites and co-requisites/ Recommended optional programme components :
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| PREREQUISITES :
General mechanics, first bases of strength of materials.
COREQUISITES
Ther is a strong relation between this course and another one, which is CONCEPTION MECANIQUE (Mechanical design).
METHODES DE FABRICATION EN SERIE, a course of 1st master, makes use of the general concepts of the present course, in its part which is devoted to machining. |
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Planned learning activities and teaching methods :
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| Oral course. The goal is that the student understands the processes, not that he learns everythig by heart.
Shop visits, in order to meet the industrial world.
Effective work on machine tools (turning and mlling) in order to obtain a better understanding of their characteristics and also to render the students more conscious of security problems.
Chip breaking laboratory, in order to make the student conscious of the chip removal problem. |
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Mode of delivery (face-to-face ; distance-learning) :
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| Lessons : face-to-face, 1st quadrimester, Friday from 2:00 PM to 6:00 PM
Practicals : dates will be precised at the beginning of the academic year. |
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Recommended or required readings :
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| In french, first part edited by the AEES. 2d part (Machining) edited as a book by CEFAL, Liège, ISBN-13 : 9782871302346 |
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Assessment methods and criteria :
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| Open book exam (2/3) and practical work reports (1/3).
What is needed is not memorization, but understanding. |
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Contacts :
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| Prof. J.F. Debongnie, Ir. D. Trif |
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| Items online : |
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| Mise à forme des matériaux, 1e partie |
| Polycopié vendu par l'A.E.E.S. |
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| Usinage |
| Livre édité par CEFAL, Liège |
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