Post on 14-Aug-2019
Firma convenzione
Politecnico di Milano e Veneranda Fabbrica
del Duomo di Milano
Aula Magna – Rettorato
Mercoledì 27 maggio 2015
Corso di Studio in Ingegneria Meccanica
Mechanical Engineering Study Programme
gaetano.cascini@polimi.itwww.ccsmecc.polimi.it
Outline
Mechanical Engineering Study Programme
Campuses and courses
Master of Science - Introduction
Tracks
ME1 - Production Systems
ME2 - Mechatronics and Robotics
ME3 - Virtual Prototyping
ME4 - Internal Combustion Engines and Turbomachinery
ME5 - Advanced Mechanical Design
ME6 - Advanced Materials and Manufacturing
ME7 - Ground Vehicles
ME8 - Machine Tools and Manufacturing Systems (PC)
ME9 - Mobility
ML4 - Mechanical Systems Design (LC)
ML3 - Industrial Production (LC)
Outline
Mechanical Engineering Study Programme
Campuses and courses
Master of Science - Introduction
Internal Double Degree Programmes
Mechanical and Materials Engineering and Nanotechnology
Biomedical and Mechanical Engineering
Mechanical and Civil Engineering
Mechanical and Building and Architectural Engineering
Campuses and Mechanical Engineering Courses
Milano Bovisa:Bachelor of Science Master of Science
Lecco:Master of Science
Piacenza:Bachelor of Science
School of Industrial and Information Engineering
Educational System
3 years (180 ECTS)
2 years (120 ECTS)
Bachelor Degree Master Degree PhD
Introductory two-year period
Third year (preparatory to MS)
Third year (professional track)
First year (shared courses)
Second year (different study tracks)
Master of Science in Mechanical Engineeering – in a nutshell
62 ECTS – Grounding (mandatory) courses
16-20 ECTS – Track (mandatory) courses
18-22 ECTS – Track (elective) courses
2 ECTS – Horizontal competencies (workshops)
18 ECTS – Thesis work and defence
Master of Science
2 years (120 ECTS)
Master Degree
First year (shared courses)
Second year(different study tracks)
First year (courses)
Control and actuating devices for
mechanical systems
Applied metallurgy
Energy systems
Advanced manufacturing processes
Machine design
Mechanical system dynamics
Measurements
Design and managment of production
systems
Master of Science
2 years (120 ECTS)
Master Degree
First year (shared courses)
Second year(different study tracks)
Second year (study tracks)
ME1: Production Systems
ME2: Mechatronics and Robotics
ME3: Virtual Prototyping
ME4: Int. Comb. Engines and Turbomachinery
ME5: Advanced Mechanical Design
ME6: Advanced Materials and Manufacturing
ME7: Ground Vehicles
ME8: Machine Tools and Manuf. Systems (PC)
ME9: Mobility
LM 3: Industrial Production (LC)
LM4: Mechanical System Design (LC)
More details here
Master of Science: internal double degree programmes
Mechanical Engineering and Materials Engineering and
Nanotechnology
Biomedical Engineering and Mechanical Engineering
Civil Engineering and Mechanical Engineering
Building and Architectural Engineering and Mechanical
Engineering
International mobility programme
Opportunities to
study abroad:
Double degree
Erasmus, Athens,
Unitech, etc
Alliance4Tech
Some Quality Assessment indexes
Cit. x Faculty
Int. Students
Int. Faculty Faculty Students
Employer Reputation
Academic Reputation
Source: QS ranking 2015 – intelligent unit
Placement Statistics
Placement Statistics
Useful links
Mechanical Engineering Study Programme:http://www.ccsmecc.polimi.it
School of Industrial and Information Engineering: www.ingindinf.polimi.it
Department of Mechanical Engineering: www.mecc.polimi.it
Lecco Campus: www.polo-lecco.polimi.it
Piacenza Campus: www.piacenza.polimi.it
Residences: www.residenze.polimi.it
Career Service: www.careerservice.polimi.it
Firma convenzione
Politecnico di Milano e Veneranda Fabbrica
del Duomo di Milano
Aula Magna – Rettorato
Mercoledì 27 maggio 2015
ME1 - Production Systems
Contact:
Prof. Andrea Matta andrea.matta@polimi.it
Prof. Enrico Cagno enrico.cagno@polimi.it
ME1: Production Systems. Competences
Planning of complex industrial projects, layout
design and feasibility studies.
Maintenance management, industrial technologies
and automation of production systems.
Design of integrated manufacturing systems,
industrial quality management and design of
technological processes.
ME1: Production Systems. Professional skills and job opportunities
Manufacturing industry (not only in the mechanical sector).
Engineering companies and system integrators.
Industrial consulting groups.
Plant Manager
Production Manager
Logistics Manager
Quality Manager
Maintenance Manager
Designer of Production Systems
Designer of Plant Utilities
Project Manager
Process Analyst
Consultant
Technology Manager
ME1: Production Systems. Courses.
Master of Science: Study ProgramProduction Systems
2° Year Courses
COURSE TITLE SEM CFU CFU
group
INTEGRATED MANUFACTURING SYSTEMS 1 8
8QUALITY ENGINEERING ME 2 8
INDUSTRIAL RISK MANAGEMENT 1 10
10ASSET LIFE CYCLE MANAGEMENT 1 10
INDUSTRIAL PROJECT MANAGEMENT A 1 10
Courses to be chosen from Group OPEN_ME1 … …
MANUFACTURING SYSTEMS ENGINEERING 1 10
10DESIGN AND ANALYSIS OF EXPERIMENTS B 1 10
INDUSTRIAL PLANTS A 2 10 10
ME1: Production Systems. Thesis topics
Layout design/re-design
Re-design of logistics
flows
Knowledge-based design of
automotive assembly lines and
virtual factory.
ME1: Production Systems. Thesis topics
Zero Defect Manufacturing
at system level
Design of Assembly lines
Continuous improvement of
additive manufacturing
processes
ME1: Production Systems. Thesis topics – Cooperation with
International Universities
Barriers and drivers for industrial energy efficiency: an
international comparison among Italian and
Dutch enterprises.
Companies operating by large projects: Risk
Management System Data Driven Deployment and
Validation.
Economic evaluation of OSH and its way to SMEs: a
constructive review.
Flow Analysis and Optimization in Machining Lines
New Models Applied on a Real Industrial Case.
Modeling and Optimization of a two-material
recycling system for non-ferrous separation.
Remanufacturing of mechatronic components in
automotive industry.
Simulation-Optimization of Manufacturing Systems.
Firma convenzione
Politecnico di Milano e Veneranda Fabbrica
del Duomo di Milano
Aula Magna – Rettorato
Mercoledì 27 maggio 2015
ME2: Mechatronics and Robotics
Contact:Prof. Francesco Braghin francesco.braghin@polimi.it
ME2: Mechatronics & Robotics – ROLE AND COMPETENCIES
Characterized by
multidisciplinary
competences necessary for
the design of high
technology active and
intelligent systems with a
systemic approach, the
mechatronic professional is
an expert of both
mechanical engineering,
automation engineering,
electrical and information
engineering.
ME2: Mechatronics & Robotics – JOB OPPORTUNITIES
ME2: Mechatronics & Robotics – COURSES
ME2: Mechatronics & Robotics – EXAMPLES OF THESIS
Smart
actuators
Smart
structures
Advanced control
logics
Industrial
applications
ME2: Mechatronics & Robotics – EXAMPLES OF THESIS
Control of a semi-active differential for high performance cars
Target
1OUTT
INT
2OUTT
1OUT 2OUT
1OUTT
INT
2OUTT
1OUT 2OUT
FEEDFEED--FORWARDFORWARD((drivingdriving conditioncondition dependentdependent))
FEEDFEED--BACKBACK(Gain (Gain ScheduledScheduled PI)PI)
Differential
locking
torque
Ay
Ste
erin
gW
hee
l
Aymax
Kus
Understeer Diagram
Ay
Ste
erin
gW
hee
l
Aymax
Kus
Understeer Diagram
A control strategy for a semi-active differential (E-Diff) has been implemented now equipping all Ferrari vehicles (starting from F430) Passive E-Diff
Experimental tests
Step-steer+Power-off
Throttle release
Yaw rate
Lateral acceleration
Steer angle
Throttle
ME2: Mechatronics & Robotics – EXAMPLES OF THESIS
ME2: Mechatronics & Robotics – NETWORK
ME2: Mechatronics & Robotics – NETWORK
Contact for Questions: francesco.braghin@polimi.it
Firma convenzione
Politecnico di Milano e Veneranda Fabbrica
del Duomo di Milano
Aula Magna – Rettorato
Mercoledì 27 maggio 2015
ME3 - Virtual Prototyping
Contact:
Prof. Francesco Ferrise francesco.ferrise@polimi.it
ME3: VIRTUAL PROTOTYPING – ROLE AND COMPETENCIES
Mechanical engineers able to use methods and tools as:
• Virtual, mixed and augmented reality
• Reverse engineering
• Human simulations for ergonomic design
• Tools for systematic innovation
to change and improve the product
development process
ME3: VIRTUAL PROTOTYPING – JOB OPPORTUNITIES
ENGINEERS READY FOR INDUSTRY 4.0:
• Virtual, Mixed and Augmented Reality
• Human-machine interaction
• Ergonomics
Manufacturing:
R&D office
Technical management
Product development management
IT services management CAD / CAM / CAE and PDM / PLM
Engineering and Consulting:
Head of product development
Head of PLM and/or of Engineering Knowledge
Head of DMU services, Virtual Prototyping, Virtual Testing
ME3: VIRTUAL PROTOTYPING – COURSES here
ME3: VIRTUAL PROTOTYPING – COURSES - OPEN
ME3: VIRTUAL PROTOTYPING – EXAMPLES OF THESIS
Politecnico di Milano - Design & Engineering Master Thesis by Giulia Wally Scurati
Conclusion and future work
Testing the application and
symbol vocabulary on a real
case study
• Both high level and low level verbs can
be converted into symbols;
• Tests can be conducted on non-expert
mainteners;
• Cultural backgrouds seem to be the
element which most affect agreement
rates;
• Homogeneity and reversibility could be
introducted when designing symbols,
but prior criteria should be defined;
Augmented Reality - remote maintenance
Driving simulator
ME3: VIRTUAL PROTOTYPING – EXAMPLES OF THESIS
Haptics for product experiencedesign
Wearable interface for gesturedetection in basketball
Design for Additive: lattice structures
ME3: VIRTUAL PROTOTYPING – NETWORK
Theses and Internships
ETH Zurich
Delft University of Technology
Technical University of Munich, Institute of Product Development
Imperial College London, Design Engineering Group
University of Leuven, Production Engineering, Machine Design
and Automation
Siemens - LMS Leuven
ME3: VIRTUAL PROTOTYPING – NETWORK
International Faculty
Technology Forecasting and Researching Future
(Prof. Dzmitry KUCHARAVY - INSA Strasbourg)
Firma convenzione
Politecnico di Milano e Veneranda Fabbrica
del Duomo di Milano
Aula Magna – Rettorato
Mercoledì 27 maggio 2015
ME4: Int. Comb. Engines and Turbomachinery
Contacts
Prof. Paolo Gaetani paolo.gaetano@polimi.it
ME4: (Internal Combustion Engines and Turbomachinery) –
ROLE AND COMPETENCIES
The course aims at training experts and
skilled people in the field of the:
Design
Optimization
New application development
Choice
Management
Testing
of Turbomachinery and Internal Combustion
Engines
ME4: (Internal Combustion Engines and Turbomachinery) –
ROLE AND COMPETENCIES
MORE DETAILS for I.C.E.:
Design of Intake and Exhaust systems
• Design of pipe geometry and valve timing
• Injection systems
Combustion process
• Combustion control (traditional and alternative fuels)
• Engine Performance
• Specific consumption
Engine pollutants
Emission and noise control
MORE DETAILS for TURBOMACHINERY:
Tools development
• new measurements techniques
• optimization algorithm
In-depth analysis of cascades and stages by Experimental and
CFD tools
• linear cascades @ different Mach and Reynolds n°
• rotating-stationary blade rows interaction
• other stationary components like diffusers
• Optimization of Cascade / stages for industrial and
aeronautical applications
ME4: (Internal Combustion Engines and Turbomachinery) –
JOB OPPORTUNITIES
Research and development Companies
for:
Internal combustion engines
Turbochargers and Gas turbines
Steam turbines
Compressors and fan
Large and mini Hydraulic machines
Components for oil and air – operated
plants
Engineering consultant company
Public and private research institutes
ME4: (Internal Combustion Engines and Turbomachinery) –
COURSES
2° year options
“Robust” expertise
in the field of
thermo-fluid-
dynamics,
materials and
mechanics
ME4: (Internal Combustion Engines and Turbomachinery) –
EXAMPLES OF THESIS
Turbomachinery: Experimental / Computational Flow field and performance analysis of stages or components Geometrical and Performance Optimization Measurements techniques development Design of new applications
Internal Combustion Engines Development and validation of a CFD model for a dual fuel engine Thermodynamic multi-zone approaches for Diesel combustion Multi-objective optimization of internal combustion engine by means of 1D fluid- dynamic models. CFD simulation of the mixture formation process in a natural gas engine with direct injection 1D models of dual stage turbocharger for Diesel engines
ME4: (Internal Combustion Engines and Turbomachinery) –
NETWORK
Companies
GE Aviation, GE Oil&Gas, Safran, Ansaldo Energia, Ferrari,
Fincantieri, Saipem, ENI, Fiat, Continental, ManDiesel &
turbo, Volvo cars, Settima Meccanica,
Institutions
Foreign: VKI, DLR, TU-Graz, TU-Delf, Lund Univ., IFPEN –
Paris, Freiberg Univ., Chalmers Univ. Goteborg, KTH
Stockolm, ETH Zurich, Imperial College London.
Italian Universities: Florence, Trento, Bergamo, Brescia
CNR istituto motori
Firma convenzione
Politecnico di Milano e Veneranda Fabbrica
del Duomo di Milano
Aula Magna – Rettorato
Mercoledì 27 maggio 2015
ME5: Advanced Mechanical Design
Contact:
Prog. Carlo Gorla carlo.gorla@polimi.it
ME5: Advanced Mechanical Design
ROLE AND COMPETENCIES
Advanced Design implies:
• Up-to date knowledge of the fundamentals of
mechanical engineering
• Understanding of simple Machine Elements and
Complex Mechanical Systems
• To manage the whole design and development
process phases and aspects: concept, preliminary
design, system design, structural design, constructive
design, prototyping, testing, industrializing
• Capability to dominate a process aimed at innovation
• Strong focus on analysis, modelisation and
simulation and on the related tools
• Deep knowledge of mechanical behaviour of
materials
• Aware application of numerical methods like FEM
and CFD
From the complex system to the small detail
ME5: Advanced Mechanical Design
ROLE AND COMPETENCIES
Design, testing and innovation in the
fields of mechanical and transportation
industry
R&D in companies and research
centres
Professional Engineer
PhD
ME5: Advanced Mechanical Design
JOB OPPORTUNITIES
Course Title Language CFU Sem
Methods and Tools for SystematicInnovation
EN 10 1
Methods for Advanced Mechanical Design EN 10 2
3 Courses selected by the students EN or IT 6 x 3 1 or 2
Especially conceived for this track
Course of Advanced Design of Machine Elements - Prof. K. Stahl, TUM - FZG
• Design, selection
and application of
machine elements
• Focus on car and
industrial
transmission
systems
ME5: Advanced Mechanical Design
COURSES
Contact for Questions: xxx@polimi.it
Design and Test
Master Degree Thesis in the track ME5 typically includes a relevant activity «in the lab»
ME5: Advanced Mechanical Design
THESIS
More info http://cmv.mecc.polimi.it
Firma convenzione
Politecnico di Milano e Veneranda Fabbrica
del Duomo di Milano
Aula Magna – Rettorato
Mercoledì 27 maggio 2015
ME6: Advanced Materials and Manufacturing
Contact:
Prof. Massimiliano Annoni massimiliano.annoni@polimi.it
Prof. Marco Boniardi marco.boniardi@polimi.it
ME6: (Advanced Materials and Manufacturing)
ROLE AND COMPETENCIES
Production engineer able to work wherever the capability of defining
innovative technological solutions and using advanced materials is a
fundamental competitive factor
Capability to face the production needs of industries involved in
innovative and advanced mechanical products and processes through
the application/development of:
advanced materials
advanced manufacturing processes
experimental techniques and laboratory activities based on
instruments and equipment employed also in the scientific
research
ME6: (Advanced Materials and Manufacturing)
ROLE AND COMPETENCIES
ME6: (Advanced Materials and Manufacturing)
JOB OPPORTUNITIES
in Manufacturing Companies (Production and Transformation):
Technical Management (Technical Office)
Production Management
Product development and manufacturing process chain definition
Maintenance Services Management and Quality Control
in Engineering and Consulting Companies:
Product Development Manager
Failure Analysis Manager
Research and Control Manager
Training Manager
ME6: (Advanced Materials and Manufacturing)
JOB OPPORTUNITIES
in Manufacturing Companies (Production and Transformation):
Technical Management (Technical Office)
Production Management
Product development and manufacturing process chain definition
Maintenance Services Management and Quality Control
in Engineering and Consulting Companies:
Product Development Manager
Failure Analysis Manager
Research and Control Manager
Training Manager
ME6: (Advanced Materials and Manufacturing)
COURSES
Course Title SEM. CFUCFU
Group
IRONMAKING AND STEELMAKING 1 8 8
DESIGN AND ANALYSIS OF EXPERIMENTS A 1 8 8
ADVANCED MANUFACTURING PROCESSES LAB
1
10
16DIGITAL MANUFACTURING [IC]* 10
INNOVATIONS IN METALLURGICAL PLANTS AND PROCESSES 6
MATERIALI PER L'ENERGIA 6
MODELLING OF MECHANICAL BEHAVIOUR OF MATERIALS B1
6 6
VISION BASED 3D MEASUREMENTS
METALLI E LEGHE PER APPLICAZIONI AVANZATE
2SOLIDIFICATION AND WELDING METALLURGY
METODI SPERIMENTALI PER LA DIAGNOSTICA STRUTTURALE
Courses to chose from Group OPEN -
GRADUATION THESIS AND FINAL EXAM 20
Total 58
Additive Manufacturing (051133 – 5.0 CFU)
Virtual Manufacturing (051134 – 5.0 CFU)*DIGITAL MANUFACTURING [IC] (10 CFU):
Stainless Steels: properties and applications
Innovations in metallurgical plants and processes
Nanostructured materials by means of ECAP technique
Failure Analysis of mechanical components
Functional Coatings for special applications
Fire Investigation Analysis
Thin features Micromilling (UCIMU award)
Tolerance chain in micro injection moulding (DTU)
Micro abrasive waterjet machining (WatAJet spin-off)
Micromachining Processes Fingerprint (Microman)
Advanced materials manufacturing (PoliMill)
Macro and Micro Laser Beam Machining
Additive and Hybrid Manufacturing
ME6: (Advanced Materials and Manufacturing)
EXAMPLES OF THESIS
ME6: (Advanced Materials and Manufacturing)
NETWORK
International contacts
USP - Universidade de São Paulo (Brasil)
Universitat de Vic (Spain)
London School of Economics (UK)
CARR (Centre for Analysis of Risk and Regulation)
Portland State University (USA)
University of Connecticut (USA)
Eagles (Engineers As Global Leaders for Energy
Sustainability)
KULeuven, Belgium
University of Nottingham, (UK)
DTU (Danmark)
Georgia Tech (USA)
Northwestern University (USA)
Carnegie Mellon University (USA), …
Firma convenzione
Politecnico di Milano e Veneranda Fabbrica
del Duomo di Milano
Aula Magna – Rettorato
Mercoledì 27 maggio 2015
ME7: Ground Vehicles
Contact:
Prof. Federico Cheli federico.cheli@polimi.it
Prof. Gianpiero Mastinu gianpiero.mastinu@polimi.it
ME7: (Ground Vehicles) – ROLE AND COMPETENCIES (1 slide)
http://mecsys.mecc.polimi.it
http://cmv.mecc.polimi.it
Concept design, design, construction, testing, usage, end-of-life
ME7: (Ground Vehicles)– EXAMPLES OF THESIS (1)
Measurements
0.4
0.6
0.8
1
2.5
3
3.5
4
4.5
x 10-3
170
180
190
200
210
220
230
240
s acc [m/s2]
ottimo
¯ reale
s ws [m]
s F
z [
N]
Optimisation
0 2 4 6 8 10 12 14 16-1500
-1000
-500
0
500
1000
1500
2000
Forza trasversale [N]
Tempo [s]
Fy [
N]
Modello (1 ruota)
Reale (1 ruota)
ModelingTesting
Design,
reliability and
materials
ME7: (Ground Vehicles)– EXAMPLES OF THESIS (2)
Autonomous vehicles:
vehicles capable of sensing
the environment and
navigating without human
input.
Electric - Hybrid system for high
performances sport car for emission
reduction
Electric vehicle with
distributed motors
A vehicle (Moving Lab) has been completely
instrumented to teach students and to verify
theoretical researches
FEEDFEED--FORWARDFORWARD((drivingdriving conditioncondition dependentdependent))
FEEDFEED--BACKBACK(Gain (Gain ScheduledScheduled PI)PI)
Differential
locking
torque
A control strategy for a semi-active differential (E-Diff) has been
implemented now equipping all Ferrari vehicles
In-tire accelerometer
Real--time board
Smart tyre
ME7: (Ground Vehicles)– JOB OPPORTUNITIES
Lombardy automotive cluster one of the biggest in Europe – Premium Suppliers
ME7: (Ground Vehicles)– COURSES (1)
SSD Course name Semester Credits Group credits
ING-IND/13 VEHICLE DYNAMICS AND CONTROL A 1 10 10
ING-IND/13 MECHATRONIC SYSTEMS AND LABORATORY B 1 6
6ING-IND/14 MECHANICAL SYSTEMS RELIABILITY 1 6
ING-IND/14 VEHICLE DESIGN (OPTIMAL DESIGN) 2 6
ING-IND/14 GROUND VEHICLE ENGINEERING A 2 10 10
ING-INF/04 AUTOMATIC CONTROL B 1 6
12
ING-IND/14 MECHANICAL SYSTEMS RELIABILITY 1 6
ING-IND/13 NOISE AND VIBRATION ENGINEERING 1 6
ING-IND/15 DESIGN METHODS 1 6
ING-IND/08 INTERNAL COMBUSTION ENGINES LM C 1 6
ING-IND/14 MODELLING OF MECHANICAL BEHAVIOUR OF MATERIALS B 1 6
ING-IND/13 MECHATRONIC SYSTEMS AND LABORATORY B 1 6
ING-IND/12 ADVANCED MEASUREMENT TECHNIQUES 1 6
ING-IND/33 ELECTRIC SYSTEM FOR TRANSPORTATION C 1 6
ING-IND/17 INDUSTRIAL PLANTS C 2 6
ING-IND/14 LIGHTWEIGHT DESIGN OF MECHANICAL STRUCTURES 2 6
ING-IND/32 ELECTRICAL DRIVES FOR INDUSTRY AND TRANSPORT APPLICATIONS 2 6
ING-IND/35 BREVETTI E PROPRIETA' INDUSTRIALE 2 6
ING-IND/13 INGEGNERIA DEL VENTO 2 6
ING-IND/21 METALLI E LEGHE PER APPLICAZIONI AVANZATE 2 6
ING-IND/14 VEHICLE DESIGN (OPTIMAL DESIGN) 2 6
ING-IND/13 FUNCTIONAL MECHANICAL DESIGN 2 6
ING-IND/04 SICUREZZA PASSIVA DELLE STRUTTURE 2 6
ING-IND/13 SMART STRUCTURES AND DEVICES 2 6
ING-IND/14 ADVANCED DESIGN OF MACHINE ELEMENTS 2 6
ING-IND/14 MECCANICA SPERIMENTALE E CONTROLLI NON DISTRUTTIVI 2 6
ING-IND/13 ADVANCED TECHNIQUES FOR VIBROACUSTIC AND AEROACOUSTIC ANALYSIS 2 6
- Insegnamenti a scelta dal Gruppo OPEN - -
- GRADUATION THESIS AND FINAL EXAM (MEC) - 20 20
ME7: (Ground Vehicles)– COURSES (2)
SSD Course name Sem Credits
ING-IND/15 TECHNOLOGY FORECASTING AND RESEARCHING FUTURE 2 6.0
ING-IND/35 MANAGING TECHNOLOGY DISRUPTION 2 6.0
ING-IND/13 SMART STRUCTURES AND DEVICES 2 6.0
ING-IND/14 ADVANCED DESIGN OF MACHINE ELEMENTS 2 6.0
ING-IND/16ADDITIVE MANUFACTURING FOR SPACE AND AEROSPACE APPLICATIONS
2 6.0
ING-IND/35 STRATEGIC PLANNING IN REAL PRACTICE 2 6.0
OPEN GROUP
ME7: (Ground Vehicles)– NETWORK (1)
•Pirelli Tires
•Nokian Tires
•Ferrari Auto
•Centro Ricerche Fiat
•Fiat Auto (Fiat Alfa Romeo Maserati)
•Pegeout
•Magneti Marelli
•TRW
•MAN
•SAME
•BREMBO
•Maserati
•ISMA
•Elasis
•Dalmine
•Bridgestone …….
.
• Delft University of Technology (DUT)• University of Stuttgart• Aachen University of Technology • Technical University of Denmark (DTU)• Helsinky University of Technology (HUT)• TNO Delft• Chalmers University (SE)• Sheffield University (UK)• University of Southampton (UK)• Loughborough University (UK)• TU Denmark Lyngby (DE)• TU Berlin• LBF Damstadt• Birmingham University (UK)• Nottingham University (UK) …..
COOPERATION WITH COMPANIES
COOPERATION WITH UNIVERSITIES
ME7: (Ground Vehicles)– NETWORK (2)
ITS
Firma convenzione
Politecnico di Milano e Veneranda Fabbrica
del Duomo di Milano
Aula Magna – Rettorato
Mercoledì 27 maggio 2015
ME8: Machine Tools and Manuf. Systems
(Piacenza Campus)
Contact:
Prof. Michele Monno michele.monno@polimi.it
ME8: Machine Tools and Manufacturing Systems Piacenza Campus
ROLE AND COMPETENCIES
Italy maintains key positions in the production of CNC machine tools,
robots and automated systems for industry, with companies that export
most of their products to supply production systems to the main
international brands in automotive, aerospace industry, turbines and
machinery for energy, and for a wide range of precision components (from
die and moulds to special equipments).
The development of “machines able to produce other machines” is the most
ambitious target for companies in this field, and the Piacenza’s territory
is well known for the high concentration of manufacturing companies
exporting CNC systems all over the world.
The Mechanical Engineering ME8 track is designed to prepare
mechanical engineers specialized in design, integration and
optimization of CNC machine tools and automated systems for industry.
ME8: Machine Tools and Manufacturing Systems Piacenza Campus
ROLE AND COMPETENCIES
The Machine Tools and Manufacturing Systems track provides a robust skills
framework for engineers capable of tackling any critical aspect of a manufacturing
system.
The core knowledge include subjects such as
monitoring and control of mechanical systems,
the optimal design and control of machine
tools and components, energy efficiency
evaluations, dynamic analysis of machine tools,
simulation techniques for flexible manufacturing
systems and more ...
Courtesy of Pietro CarnaghiMachine Tools
ME8: Machine Tools and Manufacturing Systems Piacenza Campus
JOB OPPORTUNITIES
Mechanical Engineers coming from the ME8 track
can easily find professional opportunities, as
design engineers or production engineers, offered
by a large number of companies operating in
advanced manufacturing fields as well as
technical dept. engineers inside machine tool
builder companies.
Courtesy of Jobs –FFG Group
ME8: Machine Tools and Manufacturing Systems Piacenza Campus
COURSES
The ME8 study plan (second year) includes four specialization
courses, two for each semester, and the master thesis.
Code Educational
activities SSD Course Title Language Sem Credts[CFU ]
91485 B ING-IND/13 MOTION AND VIBRATIONS CONTROL OF MECHANICAL SYSTEMS A
ENG 1 10
90672 B ING-IND/14 OPTIMAL MECHANICAL DESIGN AND FEM ENG 1 10
97539 C ING-INF/04 AUTOMATIC CONTROL C ENG 2 8
97543 B ING-IND/16 MACHINE TOOLS AND MANUFACTURING SYSTEMS LM ENG 2 10
MASTER THESIS 20
ME8: Machine Tools and Manufacturing Systems Piacenza Campus
LABORATORY FACYLITIES
Laboratory sessions are held at the MUSP Lab (www.musp.it), applied research
lab on Machine Tools and Manufacturing Systems situated at the Piacenza
Technopole (connected, by city bus line #19, to the Railway Station).
Main Lab Equipments
• 4 Industrial Furnaces NABERTHERM
• 4-axis Machining Center MANDELLI M5
• CNC-lathe SOMAB 400
• 5-axis Machining Center JOBS Jotech
• 150 ton Hydraulic Press SACMI
• WaterJet Cutting system TECNOCUT
The activities are characterized by:
• Continuous interaction with experts in
machine tool design and dimensioning.
• About 45 hours over 100 are held in
laboratory or at the companies plants.
• Group of students take part to a
competitive challenge (Project Work on
process parameters and machining
strategy optimization for the production of
a real workpiece).
ME8: Machine Tools and Manufacturing Systems Piacenza Campus
EXAMPLE OF THESIS
Complete FEM modelling of a
machine tool (with damping)
• Control strategies for
vibration suppression in
milling
• Cryogenic milling
application
development
ME8: Machine Tools and Manufacturing Systems Piacenza Campus
EXAMPLE OF THESIS
Master Degree Thesis and Research
The activities connected to the thesis development can be carried out at MUSP
laboratory. Machines and other equipment are available for the experimental tests.
The master thesis are usually developed in cooperation with companies.
Thesis Awards:
UCIMU (Italian Society of Machine Tool Builders) honours - with an award of 3000
€ - skilled graduated with master thesis on machine tools and production systems:
http://www.ucimu.it/attivita/ingrande/scuola-impresa/premi-ucimu/
Over the years, several students that
developed their thesis at MUSP won the
UCIMU Awards.
Some of the awarded from the ME8 track in the 2017
edition of the UCIMU Awards.
ITA: www.youtube.com/watch?v=TE1LUEGybWU
ENG: www.youtube.com/watch?v=pGyMyJ8aCQ4
The Machine Tools and Manufacturing Systems track is offered at the
Piacenza Campus of Politecnico.
• Academic and industrial scholarships available for deserving students:
http://www.polo-piacenza.polimi.it/en/to-be-admitted/scholarships/
ME8: Machine Tools and Manufacturing Systems Piacenza Campus
INFORMATION AND SCHOLARSHIPS
ME8: Machine Tools and Manufacturing Systems Piacenza Campus
NETWORK
Workshop sessions and on field activities are held at the site locations of the
companies supporting the ME8 track:
Moreover, the SIEMENS Technology Centre (TAC) in Piacenza offers to master
students in Machine Tools and Manufacturing Systems the opportunity to work on
state of the art CNC systems.
Siemens TAC (Piacenza):
https://w5.siemens.com/italy/web/AD/TAC/Pages/Centro-Tecnologico-TAC.aspx
Firma convenzione
Politecnico di Milano e Veneranda Fabbrica
del Duomo di Milano
Aula Magna – Rettorato
Mercoledì 27 maggio 2015
ME9: Mobility Engineering
Contact:Prof. Dario Zaninelli dario.zaninelli@polimi.it
ROLE AND COMPETENCIES
Function
The graduate in Mechanical Engineering – Mobility track will blend in
depth knowledge about mobility systems and related technology with a
scientific and engineering approach in electrical topics too.
The graduate in Mechanical Engineering – Mobility track will be able to
deal with the complexity of mobility systems and their dependence on
the interaction between different critical issues: technology,
management, ethics and policy-making. Hence, the graduate in this
field will cover highly qualified posts in different types of organizations
(including primarily transport operators).
Competence areas
To be able to achieve the above function, the Mechanical Engineering –
Mobility track programme has been conceived as a multidisciplinary
course, covering the following competence areas:
• Vehicle technology evolution
• Engineering maintenance for vehicles and infrastructures
• Integrated mobility systems
• Infomobility and IT technologies to support mobility and integrated
mobility
• Mobility business models and financial analysis
• Mobility and ethics of transportation
ROLE AND COMPETENCIES
Intended Learning Outcomes
The ILO of the Mechanical Engineering – Mobility track are:
1. Understand context, functions, components of mobility systems, interms of their key characteristics and development trends
2. Understand the interrelations among different components of themobility system (e.g. operators, vehicles…) and the impact of theseinterrelations on the performance of the system as a whole and eachcomponent
3. Identify technologies and key methodologies that are relevant inconnection to specific segments of mobility (e.g. electric mobility), andspecific components of the system
4. Interact in a professional, responsible, effective and constructive waywith colleagues with a multidisciplinary background in a workingenvironment
ROLE AND COMPETENCIES
COURSES
Name SSDCredits
(CFU)
CFU
GroupSem.
Electric System for Transportation
CING-IND 33 6 cfu
6 cfu I
sem.
* Infrastructure investment and
project finance
ING-IND 355 cfu
15 cfu
I
sem.
* Data Science for Mobility ING. INF 05 5 cfuI
sem.
* Transport planning and
economics
ING. ICAR
055 cfu
I
sem.
* Ethics of Transportation
M-FIL
02/M-FIL
03/ IUS 20
5 cfuI
sem.
* Energy and Emissions in
Transportation SystemsING-IND 09 5 cfu
I
sem.
21 cfu
I Semester
II Semester
Name SSDCredits
(CFU)
CFU
GroupSem.
Mobility: Infrastructure and
Services
ING-IND 13/
IND 338 cfu 8 cfu II sem.
Rail Vehicle Dynamics and Train-
Track InteractionING-IND/13-14 6 cfu 6 cfu II sem.
Electrical Drives for Industry and
Transport ApplicationsING-IND/32 6 cfu
6 cfuII sem.
Ground Vehicle C ING-IND/14 6 cfu II sem.
20 cfu
Thesis Credits (CFU)
Electrical 16 cfu
Mechanical 17 cfu
COURSES
EXAMPLES OF THESIS
Study of industrial processes and fleet maintenance plans ETR500,
ETR600 / 610 and ETR1000 in order to reduce costs and maximize
operational availability and performance by capitalizing on the
experience of the Dynamic Maintenance Management System
Plan a multimodal transport interchange in Abano Terme
Connecting parks to the Smart Grid Vehicle To Grid (V2G)
Smart Energy Management in a railway station
Graphic Timetable
Energy Analysis of a “Green Island” and design of 1.5 kVcc electrical
distribution system to supply Intelligent Transport System in Anas Smart
Road
The Hyperloop transportation system
NETWORK
TRENITALIA
BUSITALIA
CENTOSTAZIONI
ITALFERR
RFI – RETE FERROVIARIA ITALIANA
ANAS
FSI – FERROVIE DELLO STATO ITALIANE
Firma convenzione
Politecnico di Milano e Veneranda Fabbrica
del Duomo di Milano
Aula Magna – Rettorato
Mercoledì 27 maggio 2015
LECCO Campus:
ML4 - Mechanical System Design
ML3 - Industrial Production
Contact:Prof. Gaetano Cascini gaetano.cascini@polimi.it
Mechanical Engineering in LECCO
Mechanical Engineering in LECCO - Laboratories
Thanks to a rich network of
research laboratories and to the
long-lasting cooperation with local
companies, the Lecco Campus
offers plenty of opportunities to
develop experimental activities for
applied research and technology
transfer.
AREA INDUSTRIAL ENGINEERING
• Mechanical and Thermal Measurements
• MetroSpace Lab – Aerospace systems
• Material Testing
• VBLab - Vision Bricks Laboratory
• Biomechanics and Robotics
• Sensibilab – Biomedical sensors and systems
• Innovation and Management in SMEs
Mechanical Engineering in LECCO - Laboratories
Mechanical Engineering in LECCO – MS 2nd year courses
Code SSD Course Lang Sem ECTS ECTS (group)
051583 ING-IND/13 ROBOTICS AND MECHATRONICS 1 8.0 8.0
051584 ING-IND/14LIGHTWEIGHT DESIGN OF SMART MECHANICAL
SYSTEMS1 8.0 8.0
091506 ING-IND/12MEASURING TECHNIQUES AND SENSORS FOR
AUTOMATION B1 8.0 8.0
051581 ING-IND/21 LABORATORY OF MECHANICAL METALLURGY 1 8.0
8.0
051582 ING-IND/16 ADVANCED MANUFACTURING SYSTEMS 1 8.0
098351 ING-IND/17 INDUSTRIAL PLANTS B 1 8.0
051585 ING-IND/15COMPUTER-AIDED DESIGN AND MECHANICAL
PROTOTYPING1 8.0
051586 INIG-IND/12-17 PROJECT WORK 1, 2 6.0 6.0
091500 -- MASTER DEGREE THESIS -- 1 20.020.0
091500 -- MASTER DEGREE THESIS -- 2 20.0
ML4: Mechanical System Design
Mechanical Engineering in LECCO – MS 2nd year courses
Code SSD Course Lang Sem ECTS ECTS (group)
051581 ING-IND/21 LABORATORY OF MECHANICAL METALLURGY 1 8.0 8.0
051582 ING-IND/16 ADVANCED MANUFACTURING SYSTEMS 1 8.0 8.0
098351 ING-IND/17 INDUSTRIAL PLANTS B 1 8.0 8.0
051583 ING-IND/13 ROBOTICS AND MECHATRONICS 1 8.0
8.0
051584 ING-IND/14LIGHTWEIGHT DESIGN OF SMART MECHANICAL
SYSTEMS1 8.0
091506 ING-IND/12MEASURING TECHNIQUES AND SENSORS FOR
AUTOMATION B1 8.0
051585 ING-IND/15COMPUTER-AIDED DESIGN AND MECHANICAL
PROTOTYPING1 8.0
051586 ING-IND/12-17 PROJECT WORK 1, 2 6.0 6.0
091500 -- MASTER DEGREE THESIS -- 1 20.020.0
091500 -- MASTER DEGREE THESIS -- 2 20.0
ML3: Industrial Production
Mechanical Engineering in LECCO – Network
Firma convenzione
Politecnico di Milano e Veneranda Fabbrica
del Duomo di Milano
Aula Magna – Rettorato
Mercoledì 27 maggio 2015
Double Degree Mechanical Eng. - Materials Eng. and Nanotechnology
Contact:Prof. Andrea Bernasconi andrea.bernasconi@polimi.itProf. Maurizio Vedani maurizio.vedani@polimi.it
General framework - expertise
The Master degree in Materials Engineering
and Nanotechnology is aimed at preparing
material professionals and designer for
processes and components.
deep knowledge on the characteristics
and uses of the different classes of
materials and on the most advanced
processing techniques
The Master of Science Mechanical Engineer is
an expert who is able to design and to develop
innovative and advanced mechanical products
and processes from different aspects
with enhanced structural integrity, control
and automation systems, energy
efficiency,…
in addition, he/she is able to design the
layout of a production plant and manage it
for optimum production rate
Maurizio Vedani
General framework - working opportunities
(source: Quaderni del Centro Studi del Consiglio Nazionale degli Ingegneri - Occupazione e
remunerazione degli ingegneri in Italia (www.centrostudicni.it)
Exp
ert
ise
re
qu
ire
d(%
)
Difficulties in recruitment (%)
Maurizio Vedani
Study plan DD Mat-Mec
A total of 180 credits over three years should be gained to obtain the DD in Mat-Mec
Applicants have to enrol to the M.Sc. in Materials Engineering and Nanotechnology or in
Mechanical Engineering and then apply for the admission to the double degree program.
They will be redirected to a special track with extra credits to extend their career over
another additional year.
Students are asked to develop a multidisciplinary graduation thesis covering topics of both
the study programmes (at the end of the second year and during attendance of the third
year) tutored by two professors.
The second degree title will be acquired once further 60 credits will be gained and the first
Master degree title is achieved.
The overall DD study plan is not a new track ad-hoc built for an hybrid professional figure,
but rather a set of accurately tuned exams aimed at:
supplying to a Mechanical Engineer all the fundamental knowledge required for an
additional master degree in Materials Engineering (MEC-MAT study plan)
supplying to a Materials Engineer the knowledge required for an additional master
degree in Mechanical Engineering (MAT-MEC study plan)
Maurizio Vedani
Who can apply?
Some of the preselected tracks (PSPA) listed in current study plan of MEC are
culturally more appropriate for the DD in Materials-Mechanical Engineering:
Advanced Mechanical Design
Advanced Materials and Technology
Ground Vehicles
Machine Tools and Manufacturing Systems
Info & contacts
Document on internal DD is available at school website:
http://www.ccsmecc.polimi.it/presentazione/programmi-di-doppia-laurea
Supervisors for M.Sc. in Materials Engineering and Nanotechnology:
Prof. Francesco Briatico Vangosa (francesco.briatico@polimi.it)
Prof. Luca Nobili (luca.nobili@polimi.it)
Supervisors for M.Sc. in Mechanical Engineering:
Prof. Andrea Bernasconi (andrea.bernasconi@polimi.it)
Prof. Maurizio Vedani (maurizio.vedani@polimi.it)
Maurizio Vedani
Mat-Mec track
SSD Course Title Semester Credits
MAT/07 MATHEMATICAL METHODS FOR MATERIALS ENGINEERING 1 5
CHIM/07 ING-IND/22 ADVANCED CHEMISTRY FOR MATERIALS ENGINEERING 1 5+5
ING-IND/14-21 MECHANICAL BEHAVIOUR AND FAILURE OF METALS 1 5+5
ING-IND/21-23 SURFACE ENGINEERING AND TECHNOLOGY 2 5+5
FIS/03 SOLID STATE PHYSICS 2 10
ING-IND/14 MACHINE DESIGN 2 5
OPTIONAL COURSES 1-2 15
Total 65
SSD Course Title Semester Credits
ING-IND/22 ADVANCED MATERIALS 1 5+5
ING-IND/22 MECHANICAL BEHAVIOUR AND DURABILITY OF POLYMERS 1 5+5
ING-IND/22 CORROSION ENGINEERING OF METALS AND CERAMICS 1 5+5
OPTIONAL COURSES 1-2 5
Interdisciplinary thesis work * 20
Total 55
year II - Mat
year I - Mat
Mat-Mec track
SSD Course Title Semester Credits
ING-IND/09 ENERGY SYSTEMS LM 1 7
ING-IND/16 ADVANCED MANUFACTURING PROCESSES 1 10
ING-IND/14 MACHINE DESIGN 2 2 10
ING-IND/13 MECHANICAL SYSTEM DYNAMICS 2 5
ING-IND/12 MEASUREMENTS 2 5
ING-IND/17 DESIGN AND MANAGEMENT OF PRODUCTION SYSTEMS 2 10
OPTIONAL COURSES (selected among PSPA tracks found in MEC) 12
Interdisciplinary thesis work
Total 59
year III - Mec
During the third year, comparing to the standard programme for MEC, the courses of
“Applied metallurgy” (6 credits) and “Control and actuating devices for mechanical systems”
(9 credits) are not mandatory anymore
Mec-Mat track
SSD Course Title Semester Credits
ING-IND/13
ING-IND/32
ING-INF/04
CONTROL AND ACTUATING DEVICES FOR MECHANICAL SYSTEMS 1 9
ING-IND/21 APPLIED METALLURGY 1 6
ING-IND/09 ENERGY SYSTEMS 1 7
ING-IND/16 ADVANCED MANUFACTURING PROCESSES 1 10
ING-IND/14 MACHINE DESIGN 2 2 10
ING-IND/13 MECHANICAL SYSTEM DYNAMICS 2 5
ING-IND/12 MEASUREMENTS 2 5
ING-IND/17 DESIGN AND MANAGEMENT OF PRODUCTION SYSTEMS 2 10
Total 62
year I - Mec
year II - Mec
SSD Course Title Semester Credits
OPTIONAL COURSES (selected among PSPA tracks found in MEC) 1-2 38
Interdisciplinary thesis work * 20
Total 58
Mec-Mat track
During the third year, comparing to the standard programme of MAT, the courses of
“Mechanical behaviour and failure of metals” (10 CFU), of “Mathematical methods for
materials engineering” (5 CFU), “Advanced chemistry” (5 CFU) and “Advanced materials”
(5 CFU) are not mandatory anymore
SSD Course Title Semester Credits
ING-IND/22 MECHANICAL BEHAVIOUR AND DURABILITY OF POLYMERS 1 10
ING-IND/22 CORROSION ENGINEERING OF METALS AND CERAMICS 1 10
FIS/03 INTRODUCTION TO NANOSCIENCE (grounding) 1 5
ING-IND/22 INTRODUCTION TO MATERIALS SCIENCE (grounding) 1 5
ING-IND/21 -23 SURFACE ENGINEERING AND TECHNOLOGY 2 10
FIS/03 SOLID STATE PHYSICS 2 10
OPTIONAL COURSES (selected from table 1) 1-2 5
OPTIONAL COURSES (selected from table 1 or table 2) 1-2 5
Interdisciplinary thesis work
Total 60
year III - Mat
Firma convenzione
Politecnico di Milano e Veneranda Fabbrica
del Duomo di Milano
Aula Magna – Rettorato
Mercoledì 27 maggio 2015
Double Degree
BIOMEDICAL-MECHANICAL ENGINEERING
Contact:
Prof. Roberto Corradi roberto.corradi@polimi.it
Internal Double Degree in BIOMEDICAL and MECHANICAL ENGINEERING
ROLE AND COMPETENCIES
The internal Double Degree in Biomedical and Mechanical Engineering aims at capturing
the emerging needs of the Italian and European biomedical industries, that are looking for
a new professional figure able to combine the typical skills of a biomedical engineer with
the key technical competencies of a mechanical engineer.
The integration of the Biomedical and Mechanical Engineering study programmes results
in a solid technical education well matched with a biomedical vision.
The scientific and technical competencies developed by the students attending the
BioMec DD provide them with the opportunity to gain insight into engineering problems
with a unique interdisciplinary approach. Moreover, students will acquire both theoretical
and practical knowledge of the systems and products typical of engineering applications in
the area of biomechanics and biorobotics (such as prosthesis, orthosis, rehabilitation
devices, life support systems, surgical machines, etc.)
BIO-MECC
Design, development and testing of devices for blood circulation (e.g. artificial heart, innovative valve prostheses, vascular access cannulae, blood oxygenators)
Computational models for surgical and interventional planning
Experimental testing and modelling of mechanical properties of biological structures and materials
DD BioMec: structure of the study plan
DD BioMec: structure of the study plan
The DD programme is open to students that earned a Bachelor Degree
in Biomedical Engineering or Mechanical Engineering (propaedeutic
track) at PoliMi.
The application is to be presented each September, after obtaining the
Bachelor Degree in the July or September sessions of the same year.
No more than 20 students per year (10 from Mechanical and 10 from
Biomedical Engineering) are admitted.
The average grade achieved in the Bachelor exams is considered to
define the ranking of admitted students (a minimum average grade of
23/30 is required).
DD BioMec: application and admission
Supervisors for the M.Sc. in Biomedical Engineering:
Prof. Manuela Galli ( manuela.galli@polimi.it )
Prof. Giancarlo Pennati ( giancarlo.pennati@polimi.it )
Supervisors for the M.Sc. in Mechanical Engineering:
Prof. Monica Bordegoni ( monica.bordegoni@polimi.it )
Prof. Roberto Corradi ( roberto.corradi@polimi.it )
DD BioMec: contacts
Firma convenzione
Politecnico di Milano e Veneranda Fabbrica
del Duomo di Milano
Aula Magna – Rettorato
Mercoledì 27 maggio 2015
Double DegreeMechanical-Civil Engineering
Contact:Prof. Michele Carboni michele.carboni@polimi.itProf. Andrea Collina andrea.collina@polimi.it
Internal Double Degree: Civil – Mechanical Engineering
ROLE AND COMPETENCIES
The IDD offers two different and independent IDDs:
1. STRUCTURES: pertaining Civil Engineering «Structures»
and Mechanical Engineering «Advanced Mechanical
Design» specializations
The future career is a structural engineer able to face, through its
multidisciplinary competences, the most challenging requests of integrated
structural design of complex and large structures, considering dynamical
aspects, material issues, and able to interact in a multidisciplinary team.
Internal Double Degree: Civil – Mechanical Engineering
ROLE AND COMPETENCIES
2. GROUND VEHICLES AND INFRASTRUCTURES:
pertaining Civil Engineering «Infrastrutture di Trasporto»
and Mechanical Engineering «Ground Vehicles»
specializations
The reference future career is an engineer able to face, by
multidisciplinary competences, the technical problems related to the
design and management of complex integrated systems for transportation
services
Internal Double Degree: Civil – Mechanical Engineering
JOB OPPORTUNITIES
Some examples of job opportunities are:
STRUCTURES: engineering for the industrial field where
structural issues are a prevalent issue (major plants, civil
infrastructures).
GROUND VEHICLES AND INFRASTRUCTURES:
engineering infrastructure projects in the transportation
field: design, production/construction, maintenance and
management.
Internal Double Degree: Civil – Mechanical Engineering
COURSES
The IDD is organized so as to keep the first two years as
close as possible to the native Study Programme (except
for some necessary integrations) and to focus on the topics
of the other one in the third year.
In this way, students, willing to give up the DDI, still have
the possibility to get the Master Degree in their native Study
Programme at the end of the second year.
By the end of the IDD Study Programme, two full MSc
Degrees (in Civil Engineering and in Mechanical
Engineering) are obtained.
Internal Double Degree: Civil – Mechanical Engineering
NETWORK
General agreements among Politecnico di Milano and main
companies involved in large structures, plants, transport
infrastructure design, engineering and construction, allow to
offer stages for IDD students.
Firma convenzione
Politecnico di Milano e Veneranda Fabbrica
del Duomo di Milano
Aula Magna – Rettorato
Mercoledì 27 maggio 2015
Double Degree
Mechanical-Building and Archit. Engineering
Contact:
Prof. Francesco Braghin francesco.braghin@polimi.it
Internal Double Degree: Building and Architectural Engineering + Mechanical Engineering
ROLE AND COMPETENCIES
The construction sector: worth 8
billion euros (6% global GDP).
Big challenges ahead: 33%
increase in populations, most of it
in big cities.
The sector is undergoing a digital
transformation, requiring new
skilled jobs.
Internal Double Degree: Building and Architectural Engineering + Mechanical Engineering
JOB OPPORTUNITIES
Areas of contact between
Mechanical and Building
Engineering:
Advanced manufacturing
Robotics
Off-site production of
components
Building automation & controls
Distributed sensing
Bio-inspired architecture
Internal Double Degree: Building and Architectural Engineering + Mechanical Engineering
JOB OPPORTUNITIES
Internal Double Degree: Building and Architectural Engineering + Mechanical Engineering
COURSES
MEC + BAE – 1st year
Internal Double Degree: Building and Architectural Engineering + Mechanical Engineering
COURSES
MEC + BAE – 2nd year
Internal Double Degree: Building and Architectural Engineering + Mechanical Engineering
COURSES
MEC + BAE – 3rd year
Internal Double Degree: Building and Architectural Engineering + Mechanical Engineering
EXAMPLES OF THESIS
Progettazione algoritmica e fabbricazione robotica di stampi riconfigurabili e
termoformabili per pannelli di rivestimento personalizzati (2015).
Orizzonti di progettazione algoritmica e fabbricazione robotica. Sviluppo di
un sistema avanzato di rivestimento in cemento biodinamico (2015).
Progettazione algoritmica e fabbricazione robotica per l'involucro edilizio.
Sviluppo di un sistema innovativo per l'ottimizzazione di schermature solari
personalizzabili (2016).
Sviluppo di algoritmi computazionali per l'ottimizzazione di processi di
fabbricazione digitale per il rivestimento di superfici architettoniche free-
from discretizzate mediante elementi piani triangolari (2017).
Scenari innovativi di sviluppo della materia litica. Progettazione algoritmica,
interattiva e fabbricazione digitale, robotica di componenti in marmo (2017).
Internal Double Degree: Building and Architectural Engineering + Mechanical Engineering
NETWORK
Technische Universität München
Chair for Building Realisation and Robotics
ETH Zurich
National Centre of Competence in Research on Digital Fabrication
University College London
The Bartlett School of Architecture – Design for Manufacture