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1st Master in Industrial sciences (2nd cycle-Industrial Engineers) Mechanics

 ECTS CreditsNumber of Hours (h/year)
675
330
560
690
230
230
345
215
445
215
345
215
ORIENTATION (au choix)
Orientation Aérotechnique
230
330
215
330
Orientation Automatique
775
330
Orientation Mécanique
330
330
445
575
345
215

Mécanique de collage

ECTS Credits2
Number of Hours (h/year)15
Teaching staffKECHAOU, Adnen
Course UnitCompulsory
TermQuad. 2
CodeTECH-IELM0035/1
Prerequisite

Physics, mécanic and matearials cours.

Aims and Objectives
Description
Bibliography
Teaching and Learning MethodsTutorials
Laboratory work
Assessment MethodsWritten and/or oral examination
Essays
Continuous assessment
NotesIn part
LanguageFrench

Calculation of aerospace structures by finite elements

ECTS Credits3
Number of Hours (h/year)30
Teaching staffDONNAY, Benoit
Course UnitOptional
TermQuad. 1
CodeTECH-IELM0027/1
Prerequisite

The student has to know the following subjects :

- Mathematical (analytical geometry, the calculus, algebra, trigonometry)

- Mechanics (statics)

- Physics (of solids)

- Strength of materials (basic)

- Thermodynamics (basic).

Aims and Objectives

Deflections are especially important in the mechanical field.

Methods of rating for isostatic and hyperstatic beams.

The introduction to structural analysis by finite elements is intended to link the classical strength of resistance of materials and methods of modern computing.

Description

Deflection of isostatic beams.

Methods of Mohr and superposition.

Deflection of hyperstatic beams, method of the equivalent beam, theorem of the two moments.

Continuous beams, theorem of the three moments.

Theory of the deformation work, theorems of Clapeyron, Betti, Maxwell, Castigliano, Menabrea.

Formulary for plates in bending.

Introduction to structural analysis by finite elements.

Bibliography

Massonet et Cescotto, Mécanique des matériaux, Liège, Ed. Sciences et Lettres.

Mouton, Résistance des matériaux, Liège, Ed. Imprisil.

Giet et Géminard, Résistance des matériaux (2 tomes), Paris, Ed. Dunod.

Teaching and Learning MethodsLectures
Assessment MethodsWritten examinations
NotesYes
LanguageFrench

Maintenance des systèmes

ECTS Credits2
Number of Hours (h/year)15
Teaching staffGERLACH, Nathalie
Course UnitCompulsory
TermQuad. 2
CodeTECH-IELM0036/1
Prerequisite
Aims and Objectives

Understant different elements in the maintenance of systems

Description

maintenance organisation

maintenance costs

stocks

vibrations analyse

study of main defects

Thermography

Bibliography
Teaching and Learning MethodsLectures
Assessment MethodsWritten examinations
NotesYes
LanguageFrench

Métrologie

ECTS Credits2
Number of Hours (h/year)15
Teaching staffELSEN, Rachel
Course UnitCompulsory
TermQuad. 1
CodeTECH-IELM0037/1
Prerequisite

None

Aims and Objectives

The student will be sensitised at the theoretical aspects of precision measurement and statistical quality control and more particularly at size, measure, measure error, qualities and lacks of measuring machines, roundness measurements notions

Description
  • Measurement - The Language of Precision
  • Measuring with Basic Graduated Instruments
  • Angle Measuring Instruments
  • Fixed Size Gages, Surface Plats and Gages
  • Mechanical Comparators and Indicating Gages
  • Pneumatic, Electrical, Electronic and Optical Comparators
  • Measuring Machines, Roundness measuring means, Concentricity measuring means, Angle and inclination measuring means
  • These manipulations are evolving depending on the laboratory equipments. The metrology is approached during the different manufactory visits organized by the section.

    Bibliography

    Clément, A. Rivière, M. Temmerman, Cotation tridimensionnelle des systèmes mécaniques, Edité par PYC EDITION

    BARLIER, C. ,GIRARDIN,L. , Mémotech productique – matériaux et usinage, Paris,Ed . Casteilla, 1992, 7° éd.,1992

    P. BOURDET, L. MATHIEU, Tolérancement et Metrologie dimensionnelle, Edition du CETIM, ISBN : 2-85400-440-X, 1998

    P. BOURDET, C. LARTIGUE, L. MATHIEU, G. TIMON et co-auteurs, Techniques de mesure sur Machines à mesurer tridimensionnelles, Mouvement Français pour la Qualité, ISBN : 2-909430-73-1, 1998

    Teaching and Learning MethodsLaboratory work
    Assessment MethodsContinuous assessment
    NotesYes
    LanguageFrench

    Industrial data processing

    ECTS Credits3
    Number of Hours (h/year)30
    Teaching staffBOEMER, Laurent
    Course UnitOptional
    TermQuad. 1 and 2
    CodeTECH-IELM0018/1
    Prerequisite

    All basic notions of automation studied in the course of previous years.

     

    Aims and Objectives

    Following the course given in previous year, this part essentially becomes attached to the survey of sampled systems and to the computerised control. 

     

    Description

    "On/Off" control ; Notions on signals in discreet time applied to the systems dynamic; The sampled dynamic systems: definitions, classification,; Tools of analysis and calculation based on z transform; Transfer functions of sampled systems; Computerised control: Digitalisation of the analogical methods (recurrence methods) - Synthesis in the root locus - direct calculation of numeric correctors algorithms from discreet transfer functions;  Particular techniques for the industrial process control 

    Bibliography

    LONGCHAMP Commande Numérique des Systèmes dynamiques (Presses polytechniques romandes)

    OGATA Discrete-time Control Systems (Prentice Hall)

    BÜHLER Réglage par logique floue (Presses polytechniques romandes)

     

    Teaching and Learning MethodsTutorials
    Assessment MethodsOral examinations
    Continuous assessment

     

     

     

    NotesYes
    LanguageFrench

    Mechanics of structures

    ECTS Credits3
    Number of Hours (h/year)30
    Teaching staffDONNAY, Benoit
    Course UnitOptional
    TermQuad. 1
    CodeTECH-IELM0019/1
    Prerequisite

    The student has to know the following subjects :

    - Mathematical (analytical geometry, the calculus, algebra, trigonometry)

    - Mechanics (statics)

    - Physics (of solids)

    - Strength of materials (basic)

    - Thermodynamics (basic).

    Aims and Objectives

    Deflections are especially important in the mechanical field.

    Methods of rating for isostatic and hyperstatic beams.

    Description

    Deflection of isostatic beams.

    Methods of Mohr and superposition.

    Deflection of hyperstatic beams, method of the equivalent beam, theorem of the two moments.

    Continuous beams, theorem of the three moments.

    Theory of the deformation work, theorems of Clapeyron, Betti, Maxwell, Castigliano, Menabrea.

    Formulary for plates in bending.

    Introduction to structural analysis by finite elements.

    Bibliography

    Massonet et Cescotto, Mécanique des matériaux, Liège, Ed. Sciences et Lettres.

    Mouton, Résistance des matériaux, Liège, Ed. Imprisil.

    Giet et Géminard, Résistance des matériaux (2 tomes), Paris, Ed. Dunod.

    Teaching and Learning MethodsLectures

    Typical exercises and exercises for home work.

    Assessment MethodsWritten examinations
    NotesYes
    LanguageFrench

    Automation complement

    ECTS Credits7
    Number of Hours (h/year)75
    Teaching staffHAESEN, Christine; STYLIANIDIS, Dimitri
    Course UnitOptional
    TermQuad. 2
    CodeTECH-IELM0021/1
    Prerequisite

    Bases of electricity and electronics seen in 1st cycle must be mastered. Plc's working basis,  programming languages in ladder diagramme and sequential function chart.

    Aims and Objectives

    Theory: The course has for objective the thorough industrial PLC survey.

    Applications: To use programming languages taught in the theoretical course.

    Description

    Theory: Programming languages of plc's according to the IEC 1131-3 standard in FUNCTION BLOCK DIAGRAM, in STRUTURED TEXT and in INSTRUCTION LIST. Programming basis rules of. Examples of applications.

    Applications: Control and realization of programs on PLC's from a Personal Computer. Programs can be described with the following graphic or textual languages:

    LADDER DIAGRAM, SEQUENTIAL FUNCTION CHART, FUNCTION BLOCK DIAGRAM, STRUTURED TEXT OR INSTRUCTION LIST.

    Bibliography

    BLANCHARD Le GRAFCET (Cépadues Editions)

    BONFATI-MONARI-SAMPIERI IEC 1131-3 Programming Methodology (CJ International)

    PARR Industrial Control Handbook (Butterworth – Heinemann)

    Manuels d’utilisation Télémécanique et Siemens.

    Teaching and Learning MethodsLectures
    Laboratory work
    Assessment MethodsWritten examinations
    Oral examinations
    Continuous assessment

    NB: theory, oral or written examination; applications, continuous assessment.

    NotesYes
    LanguageFrench

    Industrial data processing

    ECTS Credits3
    Number of Hours (h/year)30
    Teaching staffNINANE, Christian
    Course UnitOptional
    TermQuad. 2
    CodeTECH-IELM0023/1
    Prerequisite

    All basic notions of automation studied in the lessons previous year and current year.

    Aims and Objectives

    Following the courses given in automation, this lesson essentially becomes attached to the following of the survey of sampled systems and the computerised control.

    Description

    Digitalization of analogical controllers ; Discreet synthesis in Bode and in the root locus ; Direct conception of numeric correctors ; Parametric identification ; State space approach ; State space synthesis ; Special techniques of control.

    Bibliography

    LONGCHAMP Commande Numérique des Systèmes dynamiques (Presses polytechniques romandes)

    OGATA Discrete-time Control Systems (Prentice Hall)

    Teaching and Learning MethodsLectures
    Assessment MethodsWritten examinations
    Oral examinations

    Oral or written examination.

    NotesYes
    LanguageFrench

    Streamlined and flight mechanics

    ECTS Credits2
    Number of Hours (h/year)30
    Teaching staffGERLACH, Nathalie
    Course UnitOptional
    TermQuad. 1
    CodeTECH-IELM0026/1
    Prerequisite

    None

    Aims and Objectives
    Description

    Airplanes : Non compressible flow

    compressible flow

     

     

     

    Helicopteres

    Flight mechanics

    Bibliography
    Teaching and Learning MethodsLectures
    Assessment MethodsWritten examinations
    NotesYes
    LanguageFrench

    Communication and Modern languages

    ECTS Credits3
    Number of Hours (h/year)30
    Teaching staff
    Course UnitCompulsory
    TermQuad. 1 and 2
    CodeTECH-MING0002/1
    Prerequisite

    See content of 2nd year 1st cycle Industrial Engineers

    Aims and Objectives

    Translation (from English into French) of "upper intermediate" or "advanced" texts

    Description

    "upper intermediate" or "advanced" general, economic and technical texts

    Bibliography

    Time, Newsweek, The Daily Telegraph,...

    Teaching and Learning MethodsTutorials
    Assessment MethodsContinuous assessment
    NotesNo
    LanguageFrench
    English

    Entrepreneurial management

    ECTS Credits2
    Number of Hours (h/year)30
    Teaching staff
    Course UnitCompulsory
    TermQuad. 2
    CodeTECH-MING0004/1
    Prerequisite

    Economics:introduction ( BAC2)

    Macro- and microeconoimics ( BAC3)

    Aims and Objectives

    Understanding of the operating of a company through setting up and expansion

    -To highlight its fundamental role in the economy (investment; innovation; added value)

    -To give a ”tool box” to that which wants to undertake

    Description

    The company:

    -Setting up: business plan: marketing aspects and financial aspects (balance sheet , estimated income statement,cash flow statement)

    -Accountancy (elements)-Financial analysis(introduction)-Breakeven point

     

    Bibliography

    Livres:

    Collins, E.C.G., Devanna, M.A., MBA, Boulogne, Maxima, 1991

    Lochard, J., Comprendre la gestion, Paris, Editions d’organisation, 1981,6è éd.

    Margerin, J., Ausset, G., Choix des investissements, Nice, SEDIFOR, 1979

    Vernimmen, P., Finance d’entreprise, Paris, Dalloz, 2000,4è éd.

    Ward, M., 50 Techniques essentielles de gestion, Paris, De Vecchi, 1998

    Brochures:

    Coopers &Lybrand, la PME et sa gestion, Bruxelles, L’Echo, 1996

    Crédit Communal (Dexia), New Business, Bruxelles, Dexia, 1998

    Trends Cash, Le guide entreprendre, Anvers, Roularta Media, 2000

    Sites Internet:

    echonet.be

    newbusiness.mib.be

    vernimmen.net

    yahoo/finance/guide de la finance

    Teaching and Learning MethodsLectures
    Tutorials

    Lecture based on the study of a concrete case; directed exercises

    Assessment MethodsWritten examinations
    NotesYes
    LanguageFrench

    aircraft design, frame , circuits

    ECTS Credits2
    Number of Hours (h/year)15
    Teaching staffDEMY, Philippe
    Course UnitOptional
    TermQuad. 2
    CodeTECH-IELM0029/1
    Prerequisite

    none

    Aims and Objectives

    Studies of:

    aircraft structures (architecture)                                                                                               structures calculations                                                                                                                   aircraft circuits (air, fuel, hydraulics, electric)

     

    Description

    Chapter 1: aeronautical structures, frame, general concepts (partie 1)                                     Chapter 2: frame (partie 2)                                                                                                      Chapter 3: frame (partie 3)

    Exercices: rivets, thin walls calculations : torsion flexion on wing & fuselage    

    Chapter 4: airconditioning system and pressurisation                                                                  Chapter 5: fuel system                                                                                                              Chapter 6: hydraulic circuit                                                                                                         Chapter 7: undercarriage                                                                                                              Chapter 8: fire detection, overheat                                                                                          Chapter 9: electrical circuit

     

    Bibliography

    Aircraft structures for engineering students (4th edition).  T.H.G Megson                                         Aircraft systems (3th edition). Ian Moir and Allan Seabridge                                                             Sabena Technics

    Teaching and Learning MethodsLectures
    Assessment MethodsWritten and/or oral examination
    NotesYes
    LanguageFrench

    Engines and propulsive units

    ECTS Credits3
    Number of Hours (h/year)30
    Teaching staffDEMY, Philippe
    Course UnitOptional
    TermQuad. 1
    CodeTECH-IELM0031/1
    Prerequisite

    none

     

    Aims and Objectives

    Good knowledge of Aero engines (Pistons,turbojet, turbofan, turboprop)                           Thermodynamic studies (exercices)

    Description

    Pistons engines (constitution, Otto cycle, carburretor, injection, oil lubrication, turbocharged engine, constant speed unit, propeller regimes)

    Turbojets - turbofan - turboprop (thermodynamic studies, thrust, consumption TSFC, constitution: air inlet, compressor, combustion chamber, turbines, exhaust nozzle, lubrication, fuel regulation, reverse, anti-ice, fire protection, noise)

     

    Bibliography

    Course:  turboréacteurs E.A.T.C

    cours Sabena Technics

    propulseurs aéronautiques (P. Lepourry et R. Ciryci)

    Teaching and Learning MethodsLectures
    Tutorials
    Assessment MethodsWritten examinations
    NotesYes
    LanguageFrench

    Mathematics

    ECTS Credits4
    Number of Hours (h/year)45
    Teaching staffBouchez, Vincent
    Course UnitCompulsory
    TermQuad. 1
    CodeTECH-IELM0001/1
    Prerequisite

    Mathematics courses of the bachelors in Industrial science.

    Aims and Objectives

    Understanding and ability to use the mathematical notions and tools which appear in the course.

    Description

    1. Elements of Fourier Analysis: Fourier series and transforms, Fast Fourier transform, convolution.

    2. Applications of Fourier analysis to the resolution of partial differential equations.

    3. Systems of linear differential equations.

    4. Differential equations and partial differential equations: introduction to Finite element methods (Galerkin method) and to Variational methods.

    Bibliography

    Gasquet et Witomski, Analyse de Fourier et applications, Ed Dunod.

    Hubert et Hubbard, Calcul scientifique de la théorie à la pratique, vol 1 et 2, Ed. Vuibert.

    Tveito et Winther, Introduction to partial differential equations, Ed Springer.

    Teaching and Learning MethodsLectures
    Tutorials
    Assessment MethodsWritten and/or oral examination
    NotesYes
    LanguageFrench

    Applied sciences

    ECTS Credits3
    Number of Hours (h/year)45
    Teaching staffBROUN, Valéry; HAESEN, Christine; NINANE, Christian
    Course UnitCompulsory
    TermQuad. 1 and 2
    CodeTECH-IELM0002/1
    Prerequisite

    Bases of applied mathematics and fundamental laws of electricity.In particular, differential equations, Laplace and Fourier transforms, matrix calculation.

     

    Aims and Objectives

    To obtain the bases of the signal processing and its application to the mechanical vibrations.

    Moreover, for mechanicians and aerotechnicians:

    Introduction to the simple and complex vibratory phenomena, and initiation into their measure.

    Description

    Signal's treatment : Signal and information; signals and spectra; systems of transmission and filtering; concepts of noise; application to the field of the vibrations. Study of the vibrations in mechanics and applications.Moreover, for the control engineers (automatic): Modulation, digital transmission, sampling, FFT.

    Moreover, for mechanicians and aerotechnicians:  

    Study of systems with 1, 2 and n degrees of freedom in free and forced vibration.

    Vibratory insulation and balancing of the stiff rotors.

    Study of the continuous systems: critical speed of shaft, torsional vibration of shafts.

    Bibliography

    HSU Signaux et communications (Ediscience)de COULON Théorie et traitement des signaux (Presses polytechniques et universitaires romandes)

    Moreover, for mechanicians et aerotechnicians:

    Techniques de l’Ingénieur

    Mécanique vibratoires - DelPedro - Presse polytechnique Romande

    Dynamique des structures - T.Gmür - Presse PolytechnRomande

    Diagnostic, Maintenance,Disponibilité des machines tournantes - R.Bigret - Masson

    Vibration des structures – Venizelos - Ellipses

    Teaching and Learning MethodsLectures
    Tutorials
    Laboratory work
    Assessment MethodsWritten examinations
    Oral examinations
    Continuous assessment

    NB: written examinations and/or oral examinations for all; continuous assessment for the control engineers (automatic).

    NotesYes
    LanguageFrench

    Engineering plan and department activities

    ECTS Credits5
    Number of Hours (h/year)75
    Teaching staffDEMY, Philippe; DONNAY, Benoit; HAESEN, Christine; KECHAOU, Adnen
    Course UnitCompulsory
    TermQuad. 1 and 2
    CodeTECH-IELM0003/1
    Prerequisite

    Aeronautics : None

    Mechanics : 

     The student has to know all the subjects taught during the first cycle.

     Automatics : Former courses in electric machinery, power electronics, electrical technology and performance.

    Aims and Objectives

    Aeronautics: To solve small scientific project using Matlab

    Mechanics : 

     Design of a machine: rating and drawing.

    Automatics : Complementary topics in electric machinery.

    Lead a project from design to realization.

    Description

    Aeronautics : Matlab introduction

    Aeronautical projects using Matlab

    Mechanics :

     Application of most of subjects taught before.

    Use of standards.

    Use of catalogs.

    Study of functionality, mounting, dismounting and maintenance.

    Study of costs, manufacturing processes, materials.

    Respect of good practise codes.

    Use of informatics tools.

    Automatics :

    Tree-phase transformer and parallel configuration. Electrical drawing. Practical project on an industrial process to be developed for the "Industrial process control" or "Electrical machines and drives" workshop

    Bibliography

    Automatics : 

    B.K.Bose - Power electronics and AC drives - Prentice-Hall

    Murphy and Turnbull - Power Electronic Control of AC Motors - Pergamon Press

    Teaching and Learning MethodsTutorials
    Project or fieldwork
    Assessment MethodsWritten examinations
    Continuous assessment
    NotesYes
    LanguageFrench

    Automation

    ECTS Credits6
    Number of Hours (h/year)75
    Teaching staffBOEMER, Laurent; HAESEN, Christine; NINANE, Christian; STYLIANIDIS, Dimitri
    Course UnitCompulsory
    TermQuad. 1 and 2
    CodeTECH-IELM0004/1
    Prerequisite

    All basic notions of automation studied in the course of previous year.

    Aims and Objectives

    Theory: Following the course given in previous year, this part essentially becomes attached to the survey of sampled systems and to the computerised control. Besides, the use of programmable logical controllers is also given.

    Applications: To apply techniques seen in the theoretical course, in particular, programming programmable logical controllers.

    Description

    Theory: "On/Off" control ; Notions on signals in discreet time applied to the systems dynamic; The sampled dynamic systems: definitions, classification,; Tools of analysis and calculation based on z transform; Transfer functions of sampled systems; Particular techniques for the industrial process control; Programming of programmable logical controllers with the five standardized languages.

    Applications: applications on PLC, utilization of languages: LADDER, SFC, FBD, ST et IL.

    Bibliography

    LONGCHAMP Commande Numérique des Systèmes dynamiques (Presses polytechniques romandes)

    OGATA Discrete-time Control Systems (Prentice Hall)

    BÜHLER Réglage par logique floue (Presses polytechniques romandes)

    Manuels d’utilisation Télémécanique et Siemens.

    Teaching and Learning MethodsLectures
    Laboratory work
    Assessment MethodsWritten examinations
    Oral examinations
    Continuous assessment

    NB: theory, oral or written examination; applications, continuous assessment.

    NotesYes
    LanguageFrench

    Manufacturing of machines and Industrial manufacturing

    ECTS Credits5
    Number of Hours (h/year)60
    Teaching staffDONNAY, Benoit
    Course UnitCompulsory
    TermQuad. 1
    CodeTECH-IELM0005/1
    Prerequisite

    - Mathematics (analytical geometry, calculus, algebra, trigonometry)

    - Mechanics (statics, kinematics and dynamics)

    - Physics (of solids)

    - Properties of materials

    - Strength of materials (basic)

    - Fluid mechanics

    - Metallurgy and Metal processing (basic).

    Aims and Objectives

    The goal of Mechanical engineering is to study machine elements to rate their strength to provide a good service in a sufficient lifetime.

    Use of standardization, empirical rules and economic criteria is required.

    Description

    Types of contact between solids. Hertz's theory. Calculation of wheels for cranes.

    Rolling resistance. Study of rolling bearings : description, dynamic and static rating, lubrication, mounting and dismounting, maintenance.

    Assembly of hubs on shafts : keyways.

    Fasteners : geometry and calculation.

    Belts transmission : principle, geometry, calculation, mounting.

    Gears transmissions : involute, distance, geometric wheel in a plane, gearmeshing in the plane, reference rack, shift profile, hobbing, normal and modified centerdistance, contact ratio, helicoïdal gears, rating of geometry, strengths, contact stresses.

     

    Bibliography

    Sprengers J. (Past professor at ISIL), President of technical comittee ISO-Gears, syllabi.

    Niemann-Winter-Höhn, Maschinen-elemente, Tomes 1 à 3, Ed. Springer-Verlag.

    Henriot G., Traité théorique et pratique des engrenages, Paris, Ed. Dunod.

    ISO standards.

    Teaching and Learning MethodsLectures

    Exercises have to be resolved at home.

    Research department activities are organized.

    Assessment MethodsOral examinations
    NotesYes
    LanguageFrench

    Electrical engineering and applied electronics

    ECTS Credits6
    Number of Hours (h/year)90
    Teaching staffBOEMER, Laurent; BRUWIER, Alfred; STYLIANIDIS, Dimitri
    Course UnitCompulsory
    TermQuad. 1 and 2
    CodeTECH-IELM0006/1
    Prerequisite

    Basic course in electrical engineering and applied electronics.

    Aims and Objectives

    Theory :thorough knowledge in electric machine science and machine control.

    Application : Manipulate analogic/ numeric converters and use numerical control. the student must be able to execute correctly measurements and wiring of an experimental realisation.

    Description

    Theory : DC-DC and DC-AC converters - Machines control : choppers and inverters.

    Application : Control of a acquisition cart in LabView. Process control under LabView.

    Study of dc machines and controlled rectifiers.

    Bibliography

    Power Electronic Control of AC Motors : Murphy and Turnbull (Pergamon Press).

    Power electronics and Ac drives : Bose (Prentice-Hall)

    Teaching and Learning MethodsLectures
    Laboratory work
    Assessment MethodsWritten and/or oral examination
    Continuous assessment
    NotesYes
    LanguageFrench

    Applied mechanics and thermodynamics

    ECTS Credits3
    Number of Hours (h/year)45
    Teaching staffGERLACH, Nathalie; NINANE, Christian
    Course UnitCompulsory
    TermQuad. 1 and 2
    CodeTECH-IELM0007/1
    Prerequisite
    Aims and Objectives

    Knowledge of volumetric machines

    Description

    Cogeneration

    Volumetric pumps

    Pumps for liquids

    Pumps for gaz

    Engine

    Pistons engine

    Diesel engine

    special engines

    Bibliography

    Mouton M - Machines à fluides compressibles - Imprisil - 1990

    Mouton M - Machines à fluides incompressibles - Imprisil - 1990

    Lebrun P - Cours de thermodynamique appliquée - - ULg - 1994

    Burnay G - Cours de machines thermodynamiques - ULg - 1977

    Teaching and Learning MethodsLectures
    Assessment MethodsWritten examinations
    NotesYes
    LanguageFrench

    Applied Hydro-pneumatics

    ECTS Credits3
    Number of Hours (h/year)45
    Teaching staffCRASSON, Alexandre
    Course UnitCompulsory
    TermQuad. 2
    CodeTECH-IELM0008/1
    Prerequisite

    Training in fluid mechanics and physics Industrial

     

    Aims and Objectives

    Being able to operate an ibstallation supplied with pneumatic or hydraulic energy.

    Being able to detect a malfunction and analyze the or causes of this.

    Description

    The training will be fully ensured in the premises of Technifutur.

    In air, the students will have access to new teaching materials.

    After a review of the theoretical characteristics of fluids, compressed air, oil, the characteristics of elements in these techniques, distributors, limitation, ... the training is essentially practical;

    Bibliography

    Techniques de l’Ingénieur

    Teaching and Learning MethodsLectures
    Laboratory work
    Assessment MethodsWritten examinations
    NotesIn part
    LanguageFrench

    Forming

    ECTS Credits2
    Number of Hours (h/year)30
    Teaching staffDONNAY, Benoit; KECHAOU, Adnen
    Course UnitCompulsory
    TermQuad. 1
    CodeTECH-IELM0009/1
    Prerequisite

    Metal Forming (15 h): The student has to know the following subjects :

    - Properties of materials

    - Physics (of solids)

    - Strength of materials (basic)

    - Metallurgy (basic)

     

    Plastic materials

    (15 h) :

     

    - Study of materials (basic).

    Aims and Objectives

    Metal Forming : The goal is to give technological information about metal processing, necessary to correctly design a mechanical part.

    Going round factories will complete the education.

    Plastic materials :

    Study of the properties of the polymers, their forming processes (extrusion and injection molding) and their assembly.

    Description

    Metal forming : Generalities - Casting processes - Powder metallurgy - Bulk deformation - Deformation of a bar through stationary dies - Sheet forming processes - Deep drawing - Shearing - Bending.

    Plastic materials :

    - Properties of the polymers, implementation.

    - Extrusion and injection molding

    - Assembly : welding, collage, screwing, cliquetage.

    Bibliography

    Formage des métaux : Lilot, P. (Ingénieur en chef à Cockerill-Liège), notes de cours, Liège.

    Précis de fonderie, Ed. Afnor-Nathan.

    Précis de construction mécanique, Ed. Afnor-Nathan.

    Mise en oeuvre des matières plastiques :

    Engineered Materials Handbook (engineering plastics) , ASM 1988.

    Les matières plastiques employées en mécanique : J.M. RIGO – ULg

    Précis des matières plastiques : J. Trotignon, J. Verdu, A. Debraczynski, M. Piperaud : Nathan Paris 2000.

    Teaching and Learning MethodsLectures
    Assessment MethodsWritten examinations
    NotesYes
    LanguageFrench

    Machining

    ECTS Credits2
    Number of Hours (h/year)15
    Teaching staffNEVEN, Jean-Michel
    Course UnitCompulsory
    TermQuad. 2
    CodeTECH-IELM0010/1
    Prerequisite

    Fondations of metallurgy, CAD.

    Aims and Objectives

    To allow the students to choose the good method of manufacturing parts by knowing the characteristics of various available technologies .

    The student will be sensitised at the theoretical aspects of precision measurement and statistical quality control and more particularly at size, measure, measure error, qualities and lacks of measuring machines, surface roughness measurements notions

     

    Description

    Chemical and electrochemical machining.Machining by electroerosion.LASER machiningMachining by water jet.Micro machining.Prototyping - > Rapid manufacturing.

    Measuring with Basic Graduated Instruments.

    Angle Measuring Instruments

    Fixed Size Gages, Surface Plats and Gages

    Mechanical Comparators and Indicating Gages

    Measuring Machines, Surface roughness, Concentricity measuring means, Angle and inclination measuring means

     

    Bibliography

    Technique de l’ingénieur.

    Tolérancement et Metrologie dimensionnelle, Edition du CETIM.

    Techniques de mesure sur Machines à mesurer tridimensionnelles, Mouvement Français pour la Qualité,

    Teaching and Learning MethodsLaboratory work
    Project or fieldwork

    Work to be realized by group on each one of these technologies, This work is based on a library research and visits of factories.

    Assessment MethodsWritten examinations
    Projects or practical work
    NotesYes
    LanguageFrench

    Machining

    ECTS Credits4
    Number of Hours (h/year)45
    Teaching staffNEVEN, Jean-Michel
    Course UnitOptional
    TermQuad. 2
    CodeTECH-IELM0015/1
    Prerequisite

    CAD Design

    Machining

    Aims and Objectives

    Realization and execution ranges of machining in Wire EDM and 3 axis milling with the aid of an CAM software.

    Description

     MasterCAM (CAM software) training

    Used a 5 axis CNC machine to machine a part.

    Used a wire EDM machine to machine a part.

     

    Bibliography
    Teaching and Learning MethodsTutorials
    Project or fieldwork
    Assessment MethodsWritten examinations
    Projects or practical work
    NotesYes
    LanguageFrench

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