Post on 16-Jan-2016
1 Master: Mechanical Engineering Profile: Research & Development
Department of Engineering TechnologyMASTER MECHANICAL ENGINEERING
PROGRAM:
MASTER MECHANICAL ENGINEERING
Competence Profile:
Research & Development
February 6, 2008
prof.dr.ir. H.W.M. Hoeijmakers
2 Master: Mechanical Engineering Profile: Research & Development
Department of Engineering TechnologyMASTER MECHANICAL ENGINEERING
COMPETENCE PROFILES:COMPETENCE PROFILES:
• Research & Development:Research & Development:
advance technology
• Design & Construction:Design & Construction: machinery, installations, products, vehicles, materials, processes
• Organisation & Management:Organisation & Management:
production, installation plants, processesproduction, installation plants, processes
ii
3 Master: Mechanical Engineering Profile: Research & Development
Department of Engineering TechnologyMASTER MECHANICAL ENGINEERING
Competence profile: Research & Development
You like toYou like to::• solve problems• explore new paths, possibilities, etc.• find out, and understand, how everything works and why• improve state of the art in technology• communicate your findings to the outside world• be an expert in a multi-disciplinary team
CURIOSITY-DRIVENCURIOSITY-DRIVEN
4 Master: Mechanical Engineering Profile: Research & Development
You are going to (1):You are going to (1):• observe and analyse in order to understand• identify parameters and determine their relative
importance• model, i.e. simplify, recognize, generalize• implement in (scale) experiment, computational tool for
numerical simulation, or field test• acquire knowledge and convert it into innovation and
technology
5 Master: Mechanical Engineering Profile: Research & Development
You are going to (2):You are going to (2):• combine your own knowledge & expertise
with that from other disciplines, such as:– mechanics (solid, liquid, gas, mixtures)– thermodynamics, energy– control– tribology, material science– bio-medical science, environmental science– Physics, chemistry – electronics & informatics, computers, etc.
TRAINING IN SOLVING PROBLEMS IN TRAINING IN SOLVING PROBLEMS IN MECHANICAL ENGINEERING CONTEXTMECHANICAL ENGINEERING CONTEXT
6 Master: Mechanical Engineering Profile: Research & Development
Upon graduation you will work at:Upon graduation you will work at:• R&D Department of (large) company as Shell, Stork, R&D Department of (large) company as Shell, Stork,
Philips, ASML, DSM, Océ, Siemens, WPhilips, ASML, DSM, Océ, Siemens, Wäärtsilrtsilää, …, …• R&D Institute (GTI) as TNO, MARIN, Delft-Hydraulics, R&D Institute (GTI) as TNO, MARIN, Delft-Hydraulics,
ECN, NLR, GasUnie, …ECN, NLR, GasUnie, …• Engineering Consultancy firm, in field of e.g. structures, Engineering Consultancy firm, in field of e.g. structures,
acoustics, processes, mechatronics, …acoustics, processes, mechatronics, …• Innovation companyInnovation company• University as PhD candidateUniversity as PhD candidate• Etc.Etc.
7 Master: Mechanical Engineering Profile: Research & Development
You can specialize in:Thermal Engineering Prof. Th. van der Meer (ThW)
Engineering Fluid Dynamics Prof. H. Hoeijmakers (TS)
Surface Technology & Tribology Prof. D. Schipper (OPM/OTR)
Design Technology & Virtual Reality Prof. F. van Houten (OPM/OT)
Production Technology Prof. R. Akkerman (OPM/PT)
Mechanics of Forming Technology Prof. J. Huetink (TM)
Structural Dynamics & Acoustics Prof. A. de Boer (TM)
Biomechanical Engineering Prof. B. Koopman (BW)
Mechanical Automation Prof. B. Jonker (WA)
Elastomers Technology & Engineering Prof. J. Noordermeer (ETE)
Multi-Scale Mechanics Prof. S. Luding (MSM)
8 Master: Mechanical Engineering Profile: Research & Development
Curriculum:Curriculum:Year 1: Courses Year 1: Courses (60 EC in total) (60 EC in total)
– Competence-specific (20 EC)Competence-specific (20 EC)– Course from other competence (5 EC)Course from other competence (5 EC)– Group/Chair-specific courses (35 EC)Group/Chair-specific courses (35 EC)
Year 2: Year 2: (60 EC in total)(60 EC in total)-- TraineeshipTraineeship (15 or 20 EC)(15 or 20 EC)
-- Extra CourseExtra Course ( 5 or 0 EC)( 5 or 0 EC)
-- MSc thesis research assignment (40 EC)MSc thesis research assignment (40 EC)
9 Master: Mechanical Engineering Profile: Research & Development
1) Competence-Specific Courses:1) Competence-Specific Courses: (Choose 4 from 6 = 20 EC)(Choose 4 from 6 = 20 EC)
115771 Numerical Methods in Mechanical Engineering
Finite-element, finite-volume methods
5 EC
115570 Solids & SurfacesStructure & properties of materials, interaction surface-bulk
5 EC
114170 Transport PhenomenaTransport of mass, momentum & energy
5 EC
113170 System Identification & Parameter EstimationSystem identification, control
5 EC
115772 Solid Mechanics 1, ElasticityElasticity theory
5 EC
115471 Fluid DynamicsFlow of gases and liquids
5 EC
10 Master: Mechanical Engineering Profile: Research & Development
2) One Course from other Competence 5 EC2) One Course from other Competence 5 EC
3) Group-Specific Courses:3) Group-Specific Courses: 35 EC 35 EC• Discipline-oriented advanced coursesDiscipline-oriented advanced courses• Interdisciplinary courses, e.g. AcousticsInterdisciplinary courses, e.g. Acoustics• Other competence-specific coursesOther competence-specific courses• PDE Mathematical Physics, Numerical Analysis, Numerical SimulationPDE Mathematical Physics, Numerical Analysis, Numerical Simulation• Measurement techniquesMeasurement techniques• Advanced control courses, etc.Advanced control courses, etc.
TOTAL: 60 ECTOTAL: 60 EC
11 Master: Mechanical Engineering Profile: Research & Development
Example: Supersonic Gas DryerExample: Supersonic Gas DryerPrepare High-pressure Natural Gas (NG)Prepare High-pressure Natural Gas (NG)
for use in domestic appliancesfor use in domestic appliances Principle: Principle: - Expand NG to get high DT/Dt - Expand NG to get high DT/Dt - Condensation of H2O, C- Condensation of H2O, CnnHHmm
- Centrifuge droplets to 2nd flow- Centrifuge droplets to 2nd flow
• Fluid Dynamics, ThermodynamicsFluid Dynamics, Thermodynamics• Physics, ChemistryPhysics, Chemistry• Process TechnologyProcess Technology• Structural Design, MaterialsStructural Design, Materials• Logistics, Financing, MarketingLogistics, Financing, Marketing
12 Master: Mechanical Engineering Profile: Research & Development
Example: WindturbineExample: WindturbineGenerate Electric Power from the Wind,Generate Electric Power from the Wind,
e.g. Offshoree.g. Offshore
• Aerodynamics, Active Flow Control• Aero-Acoustics (Anti-Noise??)• Structures• Fluid-Structure Interaction, Aero-elasticity• Vibration Control, Tribology• Materials, Production(RTM??), Corrosion• Generator, Electrical Engineering• Logistics, Financing, Marketing
13 Master: Mechanical Engineering Profile: Research & Development
Example: Water TurbineExample: Water TurbinePossible Multi-disciplinary CTW “DESIGN TEAM”Possible Multi-disciplinary CTW “DESIGN TEAM”
TM: Novel sub-sea structures, wave loads, vibration alleviation, fatigue
TS: Performance rotating flow machine, cavitation
ThW: Storage of energy (H2??)OTR: Gearbox, surface technology PT: New materials WA: Control laws OT: Design rules, maintenance procedures
Electricity grid compatibility, environment (seabed, fauna)
Marine Current Turbines LtdRPM: 10-20; Diameter 15-20 m; Current: 2.5 m/s
14 Master: Mechanical Engineering Profile: Research & Development
Example: Joint Technology Initiative ‘Clean Sky’
15 Master: Mechanical Engineering Profile: Research & Development
Synthetic Jets for Flow Control(TS, WA, PT)
KK
DisturbanceDisturbancePiezoelectric SensorPiezoelectric Sensor
Piezoelectric Actuator
Piezoelectric Actuator
Structural Health Monitoring and Shape Morphing (TM, PT)
Ice-Phobic Texture for Passive Anti-Icing(WA, TR) Active Anti-icing (PT, TS)
Example: Joint Technology Initiative ‘Clean Sky’
16 Master: Mechanical Engineering Profile: Research & Development
Examples of R&D from the participating Groups:Examples of R&D from the participating Groups:
THW: Thermal Engineering
TS: Engineering Fluid Dynamics
OPM/OTR: Surface Technology & Tribology
OPM/OT: Design Technology & Virtual Reality
OPM/PT: Production Technology
TM: Structural Dynamics & Acoustics
BW: Biomechanical Engineering
WA: Mechanical Automation
ETE: Elastomers Technology & Engineering
MSM: Multi-Scale Mechanics
17 Master: Mechanical Engineering Profile: Research & Development
In groups focus can be onIn groups focus can be on::
- New theories, knowledge, innovationsNew theories, knowledge, innovations
always motivated by application (R&D)always motivated by application (R&D)
- Application of above in new designs or construction (D&C) Application of above in new designs or construction (D&C)
RELATION BETWEEN R&D AND D&CRELATION BETWEEN R&D AND D&C
18 Master: Mechanical Engineering Profile: Research & Development
TM: Structural Dynamics & AcousticsTM: Structural Dynamics & AcousticsExample: Tyre-road interaction
19 Master: Mechanical Engineering Profile: Research & Development
S en so r
F ib e r
R obo t
S eam
M irro r
WA: Automation, Mechatronics & RobotsWA: Automation, Mechatronics & Robots
Design and development of methods and Design and development of methods and equipment for control and automation of equipment for control and automation of mechanical systems and physical processes mechanical systems and physical processes
ThemesThemes: : (1) Robotized laser welding (1) Robotized laser welding
• Robotics and machine dynamicsRobotics and machine dynamics• Seam trackingSeam tracking• Laser welding process controlLaser welding process control
20 Master: Mechanical Engineering Profile: Research & Development
WA: Automation, Mechatronics & RobotsWA: Automation, Mechatronics & Robots
ThemesThemes: : (2) Vibration control(2) Vibration control• Mechatronic design of machine supportsMechatronic design of machine supports• Active vibration isolationActive vibration isolation
- Feedback control- Feedback control- Adaptive feed-forward control- Adaptive feed-forward control
Wafer scanner: ASML TwinScan
Vibration isolation of lens systemfor better image quality
21 Master: Mechanical Engineering Profile: Research & Development
draping trimming spring-backdraping trimming spring-back
Production process simulation of wing leading edge stiffeners
OPM/PT: Production TechnologyOPM/PT: Production TechnologyExample: process analysis for novel materials
New materials for aviation industry
22 Master: Mechanical Engineering Profile: Research & Development
Combustion
ThW: Thermodynamics, Energy, Combustion ThW: Thermodynamics, Energy, Combustion
Sustainable fuels
Heat transfer
23 Master: Mechanical Engineering Profile: Research & Development
BW: BW: Biomechanical EngineeringBiomechanical Engineering
Understanding human movementUnderstanding human movement
• Movement mechanics, neural mechanics and tissue mechanics
• Theoretical and experimental approach, resulting in the design of innovative biomedical products
• Applications in medicine (rehabilitation, orthopaedics, neurology) and sports
24 Master: Mechanical Engineering Profile: Research & Development
TS: Engineering Fluid DynamicsTS: Engineering Fluid Dynamics
• Rotating Flow Machines Rotating Flow Machines • Aero-acousticsAero-acoustics• Flows with Condensation, CavitationFlows with Condensation, Cavitation• Fluid-structure Interaction, Flow ControlFluid-structure Interaction, Flow Control• Bio-physical FlowsBio-physical Flows
25 Master: Mechanical Engineering Profile: Research & Development
OPM/OTR: Surface Technology & TribologyOPM/OTR: Surface Technology & Tribology
Example: Wear modes in AbrasionWear modes in Abrasion
(a) Ploughing (b) wedge formation (c) cutting
26 Master: Mechanical Engineering Profile: Research & Development
OPM/OT: Design Engineering
Design with customers?
Human interaction with
complex technical
systems
27 Master: Mechanical Engineering Profile: Research & Development
Elastomer: Composite MaterialComposite Material
consisting of two nano-scale co-continuous networks of- crosslinked polymers- reinforcing fillers
►EXCITING and UNIQUE property profile for wide variety of characteristic applications►Challenging potential for RECYCLING
ETE: Elastomers Technology & EngineeringETE: Elastomers Technology & Engineering
28 Master: Mechanical Engineering Profile: Research & Development
Multi Scale MechanicsMulti Scale Mechanics
• Self Healing MaterialsSelf Healing Materials• Sound wave propagationSound wave propagation• Micro-macro theory and simulationsMicro-macro theory and simulations• Compressive/Tensile tests of sintered material Compressive/Tensile tests of sintered material • Flow of non-Newtonian Fluids and micro-fluidsFlow of non-Newtonian Fluids and micro-fluids• Hierarchical Multi-Scale ModelsHierarchical Multi-Scale Models
29 Master: Mechanical Engineering Profile: Research & Development
• See for other examples and further information: • http://www.bw.ctw.utwente.nl/
• http://www.opm.ctw.utwente.nl/research/design_engineering/index.html
• http://www.opm.ctw.utwente.nl/research/tribology/index.html
• http://www.pt.ctw.utwente.nl/
• http://www.tm.ctw.utwente.nl/
• http://www.ts.ctw.utwente.nl/
• http://www.thw.ctw.utwente.nl/
• http://www.wa.ctw.utwente.nl/
• http://www.ete.ctw.utwente.nl/
• http://www.msm.ctw.utwente.nl/