DEPARTMENT MS3
MECHANICS OF SOLIDS, SURFACES AND SYSTEMS
MASTER TRACK AND SPECIALISATIONINFORMATION DAY MARCH THE 9TH 2016
WWW.UTWENTE.NL/CTW/MS3
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MS3 – Master information 201613.45 - 14.45:
• Prof. Schipper: Introduction department MS3.• Prof. De Boer: Coördinator Education (MS3).• Students: Internship and Master assignment.
• Yoeri Ton• Andries van Benthem
14.45 - 16.00: Visit Laboratories.
16.00 - ……..: Individual visit to labs and personal questions
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Chair versus Department
Faculty
Chair 1 Chair i Chair n = many
Carries out research and gives BSc and
MSc courses
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Chair versus Department
Faculty
Depatment1 Department i Department 5
Carries out research and gives BSc and
MSc courses
Chair 1 Chair i Chair 12
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Chairs involved in MS3
Elastomer Technology and Engineering (ETE) headed by Prof.dr. A. Blume.
Mechanical Automation and Mechatronics (MA) deputy head Dr.ir. R.G.K.M. Aarts.
Design of Mechanisms and Robotics (DMR) headed by Prof.dr.ir. J.L. Herder.
Applied Laser Technology (LT) deputy head Dr.ir. G.R.B.E. Römer.
Production Technology (PT) headed by Prof.dr.ir. R. Akkerman.
Engineering of Fibrous Smart Materials (EFSM) deputy head Prof.dr.ir. R. Akkerman.
Mechanics of Polymeric Materials headed by Prof.dr.ir. L.E. Govaert
Nonlinear Solid Mechanics (NSM) headed by Prof.dr.ir. A.H. van den Boogaard.
Structural Dynamics & Acoustics (SDA) headed by Prof.dr.ir. A. de Boer.
Dynamics Based Maintenance (DBM) headed by Prof.dr.ir. T. Tinga.
Surface Technology and Tribology (STT) headed by Prof.dr.ir. D.J. Schipper.
Skin Tribology (ST) headed by Prof.dr.ir. E. van der Heide.
Tribology Based Maintenance (TBM) headed by Prof.dr.ir. P.M. Lugt.
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Department MS3
At the department Mechanics of Solids, Surfaces & Systems
at first you choose for a broad spectrum of specialisations.
After about half a year (when you have more experience and
insight) you choose for one specialisation.
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MS3
Manufacturing the Future: MS3 develops the technology for future manufacturing processes and new products
by a science based engineering approach focused on material- and system behaviour and robust optimization.
Research within MS3 addresses the scientific and engineering aspects of the strongly related “triangle” of (i) material (behaviour), (ii) production and (iii)
products, where ultimately the performance of all aspects is of crucial importance.
Our students are trained to solve industry’s problems of today and tomorrow and our research is directed to develop the technology needed to be successful in the
long run.
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MS3
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Department MS3 – Education and research
Education: Prof. De Boer
Research: Impression via lab visit
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Choice seems difficult, but it is not!
JobSecondary school
N&G, N&T Study
Diplome: MechanicalIngenieur! (MSc)
MasterBachelor |
Choice whichspecialisation
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Department MS3
Organisation:Chair Prof.dr.ir. D.J. Schipper
Coordinator Research Dr.ir. G.R.B.E. Römer
Coordinator Education Prof.dr.ir. A. de Boer
Contact: Mrs. Bruinink, [email protected], 0534895630
Mrs. Ter Horst, [email protected], 0534893596
Mrs. Tjapkes, [email protected], 0534892502
Mrs. Zimmerman van Woesik, [email protected], 0534892460
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Prof.dr.ir. André de BoerCoordinator Education MS3
MECHANICS OF SOLIDS, SURFACES & SYSTEMS
MSc program Profile courses Department courses Elective courses Second Year MEWhy MS3
CONTENT
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Master is two year
One year courses (60 ec)
Plus one year practical training & assignment (60 ec)
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MASTER PROGRAM ME
Competence profiles (3 O’s):
Research & Development
Design & Construction
Organization & Management
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MASTER PROGRAM ME
At the end of the master the student has to prove that he/she can expand the borders of the ME field.
This is only possible in a specific area in the field of ME = specialisation.
Therefore the student has to choose also a specialisation
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MASTER PROGRAM ME
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Specialisations R&D D&C O&MResearche
r(R&D)
Designer(D&C)
Organisor(O&M)
Mechanics of Solids, Surfaces & Systems (MS3)Applied Mechanics (AM)Elastomere Technology (ETE)Mech. Automation (MA)Production Technology (PT)Surface Techn. & Tribology (STT)
Maintenance
Maintenance
Design, Production & Management (DPM)Design Engineering (DE)Production Management (PM)
Thermal and Fluids Engineering (T&FE)Engineering Fluid MechanicsMulti Scale MechanicsThermal Engineering
Biomechanical Engineering (BE)
Maintenance Engineering & Operations (MEO)
MASTER PROGRAM ME
Thesis
40 EC
Intern-ship
20 EC
Profile courses25 EC
Department courses20 EC
Elective courses15 EC
1st year 2nd year
MASTER PROGRAM MS3
R&D- Fluid Mechanics
- Transport Phenomena
- Linear Solid Mechanics
- System Identification & Parameter Estimation
- Solids and Surfaces
- Numerical Methods in Mechanical Engineering
Profile courses
Profile coursesD&C- Design of Biomedical Products
- Product Design
- Process Equipment Design
- Design, Production & Materials
- Design Principles of Precision Mechanisms
- Numerical Methods in Mechanical Engineering
Profile coursesO&M- Maintenance Engineering & Management
- Manufacturing facility design
- Design of production and inventory systems
- Engineering Project Management
Department courses (4 out of 5)
- Computational Structural Optimization
- Dynamics & Control
- Nonlinear Solid Mechanics
- Plastic and Elastomer Engineering
- Experimental Methods
- Applied Laser Technology
- Design of Mechanisms and Robotics
- Elastomer Technology and Engineering
- Mechanical Automation & Mechatronics
- Nonlinear Solid Mechanics
- Production Technology (Composites & Smart Fibres)
- Mechanics of Polymeric Materials
- Dynamics & Tribology Based Maintenance
- Structural Dynamics & Acoustics
- Surface Technology and Tribology & Skin Tribology
Research groups for Assignment
Elective courses (15 EC) (R&D, D&C)
• Elastomeric Technology• Composites• Rheology and Processing of Thermoplastics
• Motion and Vibration Control• Dynamics of Machines• Engineering Acoustics• Signal Processing for Acoustics & Vibrations
• Composites Forming• Moulding Technology • Laser Material Processing• Tribology• Surface Technology
• Failure mechanisms & life prediction• Structural Health & Condition monitoring
Obligatory courses (15 EC) O&M
• Failure mechanisms & life prediction• Structural Health & Condition monitoring• Reliability Engineering & Maintenance Management
Example of course list R&D
Part Course EC
Compulsory profilecourses
System identification and parameter estimation Linear Solid MechanicsSolids and surfacesFluid Dynamics
5555
Profile elective course Design principles for precision mechanisms 5
Compulsory department related courses
Computational structural optimization Dynamics & ControlExperimental Methods Plastic and Elastomer Engineering
5555
Elective subjects Laser Materials Processing Motion and Vibration ControlSurface Technology
555
Internship Internship 20MSc Assignment MSc Assignment 40
Example of course list D&C
Part Course EC
Compulsory profilecourses
Design principles for precision mechanicsDesign, production and materialsNumerical methods in mechanical engineerProcess Equipment Design
5555
Profile elective course System identification and parameter estimation 5
Compulsory department related courses
Computational structural optimization Dynamics & ControlNonlinear Solid MechanicsPlastic and Elastomer Engineering
5555
Elective courses Elastomeric Technology Rheology and Processing of Thermoplastics Structural Health & Condition Monitoring
555
Internship Internship 20MSc Assignment MSc Assignment 40
Example of course list D&C-MATERIALS
Part Course EC
Compulsory profilecourses
Design principles for precision mechanicsDesign, production and materialsNumerical methods in mechanical engineerProcess Equipment Design
5555
Profile elective course Linear Solid Mechanics 5
Compulsory department related courses
Computational structural optimization Experimental Methods Nonlinear Solid MechanicsPlastic and Elastomer Engineering
5555
Elective courses Elastomeric Technology Rheology and Processing of Thermoplastics Composites
555
Internship Internship 20MSc Assignment MSc Assignment 40
Second Year ME
• Internship• 3 months in a company abroad or in The Netherlands
• Assignment• Internal within one of the MS3 research groups• External within a company or research institute with which
MS3 groups collaborate
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What area?
AutomotiveAerospaceOff shore industry………..ControlMaterials (composites, metals)BiomechanicsFluid-StructureThermo-Acoustics
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Supervision
Internal. By PhD student and MS3 staff member
External. By company, MS3 staff member and sometimes PhD Student
Every 6 to 8 weeks progress meetings
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Mechanics of Solids, Surfaces & Systems
‘Van alle markten thuis’• Experimental research• Building of experimental set-ups• Design• Numerical analyses• Program development• Mathematical modelling
• It is strived for a mix
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New MS3 master student• Will be invited for a personal talk about planning etc.
• With the master program (4th year) it is possible to postpone the decision for a research group
• There are many possibilities for the Master Assignment
• Progress is tracked and discussed periodically
• Possibilities for Master Assignments between different chairs (within the competence profiles)
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Why choose MS3
•Mechanics of Solids, Surfaces & Systems is essential base of Mechanical Engineering
•Learning now fundamentals of Mechanical Engineering is easier because experts are around to help
•Supervision/coaching by MS3 staff is excellent. ‘Open door strategy’
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w w w . u t w e n t e . n l / c t w / M S 3
MECHANICS OF SOLIDS, SURFACES & SYSTEMS
Graduation assignment for MS3andries van Benthem
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Possibilities within MS3
The assignment
Courses
Experiences
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GRADUATION ASSIGNMENT FOR MS3CONTENTS
Internal
PhD
External
Company
Mix of both
Experiments
Software
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POSSIBILITIES WITHIN MS3
About 8,000 employees in Veldhoven, more than 14,000 worldwide
Producer of lithography scanners
System of interest:
Diameter 300 mm
Resolution <38 nm
Overlay <2.5 nm
Troughput 275 wph
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THE ASSIGNMENTINTRODUCTION TO ASML
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THE ASSIGNMENTSUBJECT
Prediction of disturbances
Acoustic and dynamic
Reduction of model
FEM and acoustic theory
Sensitivity to changes
Damping of disturbances
Experimental validation
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THE ASSIGNMENTSUBJECTS OF INTEREST
In first instance detailed CAD model as basis
Difficulties with meshing
Large domain
Small details
Now simple basis
Further details in process
Opportunity to analyze influence details
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THE ASSIGNMENTFINITE ELEMENT MODELING
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THE ASSIGNMENTMODEL INPUT
Acceleration measure stage
Frequency sweep
Pressure expose stage
Total of 12 positions
Impedance surfaces
Pressure to particle velocity ratio
Description of volume behind the surfaces
Reduction up to 85% of the calculation time
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THE ASSIGNMENTMODEL REDUCTION
Transfer from the acceleration of the measure stage to the pressure at the microphones on the expose stage
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THE ASSIGNMENTRESULTS MODEL REDUCTION
Cleanroom
Little space
Low frequencies => Large wavelengths
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THE ASSIGNMENTSOLUTIONS TO REDUCE THE NOISE
Measurement plan
Planning for testing facilities ASML
Preparation
Production of absorbing surfaces
Data analysis
Expected results
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THE ASSIGNMENTTESTING
Acoustic theory
Engineering Acoustics
Dynamic theory
Dynamics and Control
FEM modeling
Numerical Methods in Mechanical Engineering
Test preparation
Experimental Methods
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COURSES
General
Opportunity to focus on a subject
Combination of knowledge from multiple courses
University
Easy access to knowledge
Easy access to software
ASML
Real working environment
Importance of practical interpretation
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EXPERIENCES
Yoeri TonInternship at Audi
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Audi Neckarsulm
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Assignment Intern in the department for ‘technology development’ of the carbon fiber
reinforced plastics production process
FEM simulations (AniForm)
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Extra activities at Audi: Composites Europe
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Extra activities at Audi: Le Mans
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Extra activities at Audi: Suppliers
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Living in Germany
Wonen
Fietsen
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After work and weekends Audi Praktikanten Stammtisch
Oktoberfest
BBQ’s and ‘Bierfest’
Tesla test drive
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Sinsheim Techniek Museum
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IAA Frankfurt International Motor Show
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Finding an internship
Fellow students
Professor
If interested in an internship at Audi:
http://www.audi.com/corporate/en/careers/joining-audi/students/internship.html
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Thank you!
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