Academic Year 2022/23





School of Industrial and Information Engineering



Degree Programme of:


Mechanical Engineering
Laurea Magistrale (Equivalent To Master Of Science)


Lecco Campus

1. General Information

School School of Industrial and Information Engineering
Code Reference Law485
NameMechanical Engineering
Reference LawOrdinamento 270/04
Class of degreeLM-33 - Mechanical engineering
Degree level Laurea Magistrale (Equivalent To Master Of Science)
First year of activation 2010/2011
Official length of the programme 2
Years of the programme already activated 1,2
Official language(s) The Laurea Magistrale (equivalent to Master of Science) programme is offered in English but the degree programme meets the requirements of MIUR (Ministry of Education, Universities and Research) note of 11.07.2018 and the CUN opinion of 10.23.2018.
Campus Lecco
Dean of the School Antonio Capone
Coordinator of the Study programme Francesco Braghin
Website of the School http://www.ingindinf.polimi.it
Website of the Study programme
https://www.mecheng.polimi.it/


Central Student Office - Lecco
Address VIA GAETANO PREVIATI, 1/C (LC)

2. General presentation of the study programme

The Mechanical Engineering Programme has, as its goal, the training of engineers that are capable of carrying out many different roles in the job market, by providing an education aimed at guaranteeing a firm scientific, economic, technical and practical background, so as to facilitate a deepening of knowledge that may be required to carry out professional activities.

A mechanical engineer, being involved in the design, the production process and products and their use – both individually and as part of a plant – must have an advanced technical preparation in: machine design, regarding its functioning and resistance of its components, the transformation of energy in the machinery itself, the materials used in construction, fluid mechanics, the required manufacturing, the design - as an essential part of the design phase, services and elements relating to functioning, size and performance control and the basics of industrial automation .


3. Learning objectives

The considerable variety of skills expected of a mechanical engineer calls for, as the main academic objective of the programme, a solid background with well-founded scientific knowledge with a significant technical and application content, favouring immediate entrance to job market. In particular, the capacity to design, build, install and optimise machinery and plant use, the means used to activate it and related services is developed. In this way, a great deal of attention is dedicated to the technical preparation in all aspects of mechanics allowing rapid adaptation to the most varied of professional needs.

Out of the training course in Mechanical Engineering, there are three fundamental roles sharing a general approach that could strengthen the method of study and encourage  the capacity  to reconfigure themselves adapting to the changes of professional reality in which they will operate.

The three different professional roles can be distinguished amongst themselves by their different capacities to innovate and apply complex models to describe the reality to be modified and/or designed:

  • the Bachelor of Science graduate: a university-trained technician, capable of developing projects and managing processes in the industrial engineering domain, with consolidated engineering methods and technologies;
  • the Master of Science graduate: a figure capable of independently developing innovation projects of products, processes and productive systems, both in the industrial and advanced tertiary fields;
  • the Doctor of Research: a figure that aside from possessing the Master of Science graduate skills, is able to independently carry out applied research projects and organise their operative activities.

4. Organization of the study programme and further studies

4.1 Structure of the study programme and Qualifications

The Programme in Mechanical Engineering has a structure which is coherent with the decrees on university teaching autonomy, with the objective of facilitating the integration of mechanical engineers in the employment world. This educational programme has, in its articulation and its purpose, highly innovative features and is based on a sequential study programme with a progression leading to the qualifications of (see Table I):

  • Bachelor of Science (BSc): obtained following a three-year Programme, on completion of which the qualification of Bachelor of Science in Mechanical Engineering is obtained. The first year provides a solid grounding in preparatory and basic, whilst in the second a preparation is more oriented to engineering in key areas of mechanical engineering. In the third year selection among various different study plans approved in advance is foreseen for completion, with specialised courses, of the technical preparation.
  • Master of Science (MSc): reached on completion of a Programme lasting two years, after obtaining the Bachelor of Science. In the first year, the level of cultural preparation is strengthened with broadening of knowledge of advanced analysis methods, which, in the second year, are applied in specialised courses and in the development of a thesis. Admission to the Master of Science in Mechanical Engineering is subject to an admission interview based on the examination of the past career and assessment of the adequacy of the preparation of the student.
  • PhD: awarded after a further training programme, lasting three years, following the achievement of the Master of Science. The PhD is designed and organized to prepare professionals of high cultural profile with a wealth of knowledge to be able to meet the dual demand for training that comes from companies and research institutions, which require highly qualified researchers, and Universities. Access to the PhD is governed by a selection process.

 

To supplement information given in this Regulation the student should visit the School of Industrial and Information Engineering Website www.ingindinf.polimi.it.

 


Table I: General structure of the Mechanical Engineering Programme

4.2 Further Studies

The qualification grants access to "Dottorato di Ricerca" (Research Doctorate), "Corso di Specializzazione di secondo livello" (2nd level Specialization Course) and "Master Universitario di secondo livello" (2nd level University Master)


4.3 Forfeiture from study


The provisions relating to decadence from studies can be found in "Regulations of the career of students," available through the website of the University.

Among other things, the regulation specifies, in paragraph 6.6, that "are not permitted total years of enrollment in numbers greater than twice the normal duration of the Programme." After this period, students who have not obtained the qualification lose their status as a student.


In addition, for the purpose of forfeiture, "the total number of academic years of enrollment of a student is calculated by weighting each academic year with the ratio between the total of the credits required for the student at the time of the annual presentation of the Curriculum and the standard value of 60 credits. "


Any readmission to the course in Mechanical Engineering, following the eventual withdrawal from studies is subject to the evaluation of a commission appointed by the Coordinator of CCS.


5. Professional opportunities and work market

5.1 Professional status of the degree

The Master of Science Mechanical Engineer is a professional technician with higher academic and professional background, able to design and to develop innovative and advanced mechanical products and processes from different aspects - functional, with enhanced structural integrity, energy efficient, with an appropriate choice of the materials and of the processing methods and production technologies. In addition to, the Master of Science Mechanical Engineer is able to design the layout and manage a production plant for optimum production rate, to design systems apt in the field of thermal and mechanical measurements, to design the control systems and the automation technology of complex mechanical systems. The Master of Science Mechanical Engineer due to the broad range of technical skills, may be deployed in several industrial sectors, where technical competences in the design, in the management and in the maintenance of machines and production plant are appreciated.

5.2 Careers options and profiles

The Mechanical Engineering graduate has ample possibilities to express his/her professional activity in various industrial sectors. Further opportunities are also offered in manufacturing industries and production plants regarding design, production and development of new technologies, measurement techniques and most appropriate choice of materials. As well as in production and service activities, the Master of Science graduate can find employment in Public Administrations or research institutes in which knowledge acquired can be exploited.

5.3 Qualification profile

Mechanical engineer

Profile in a work context:

Profile capable of autonomously developing product, process and production system innovation projects, both in industrial and advanced tertiary sector.

The Laurea Magistrale graduate student in Mechanical Engineering is a technician of high cultural and professional skills, able to independently develop innovative projects in terms of product and process, from the functional, constructive and energetic point of view, with the choice of materials and related processing and transformation technologies, the design of the arrangement and management of machines in a plant and their best use with the related services, measures, control and automation. In addition to the mechanical industry, the Laurea Magistrale graduate student can find a place also in different industrial sectors for what concerns the design, management and maintenance of machines and plants.

Specific skills:
  • design and manage industrial production systems, technological processes, industrial installations and production and logistics systems;
  • manage maintenance, industrial technologies and automation of industrial systems;
  • design and supervise integrated production systems, with particular attention to the industrial management of quality;
  • design mechanical systems equipped with high-tech active and intelligent systems (for example: automatic machines and plants, vehicles and industrial robots);
  • face the problems with a system-product approach as a whole, with system architecture, comprehensive vision of product development process oriented to the whole life cycle, with the effective and integrated use of method and technology simulations based on paradigms of virtual prototyping, virtual factory and virtual mannequins;
  • independently develop and manage engineering projects involving the sizing, development, selection and operation of internal combustion engines and gas turbines;
  • design, in full autonomy and with advanced and innovative methods, mechanical components and systems;
  • operate in all areas where the ability to identify innovative technological solutions and to use advanced materials is a fundamental competitive element (for example: iron and steel plants, foundries, rolling mills, heat treatment and thermochemical plants, companies producing consumer goods and capital goods for individual or collective use);
  • design, build and manage vehicles, with particular attention also to the problems of the environment and of active and passive safety.

Job opportunities:

Graduate student in Mechanical Engineering has many opportunities to show his/her professional skills in many industrial sectors. In particular, s/he can develop the design of mechanical systems from a functional, constructive and energetic point of view, the layout design, the management and the optimal use of the machines of a plant. Further opportunities are also offered in manufacturing industries and in production facilities for what concerns design, production, development of new technologies, measurement techniques and selection of the most appropriate materials. In addition to production and service activities, the Laurea Magistrale graduate student in Mechanical Engineering can find a place in public administrations or research institutions, where s/he can use the acquired knowledge. In particular, each of the three different educational levels indicated above corresponds to a professional profile that can quickly find a place on the job market.


6. Enrolment

6.1 Access requirements

First cycle degree (level 6 EQF) or comparable qualification


The admission to the Master of Science degree undergoes an evaluation process aimed to determine the eligibility of the applicant. Such process, in compliance to the existing regulation (D.M. 22/10/2004 n. 270 art. 6 par. 2 and D.M. 16/3/2007, art.6 par. 1), is based upon curriculum requirements and an assessment of the preparation of the student.

The final decision about the admission to the Master of Science degree shall be taken by an Evaluation Commission set up by the Board of Studies, according to the academic career of the applicant. The Commission may take into account a valid documentation showing clear exceptional conditions, justifying the non-compliance of the below-mentioned criteria and showing that the student has an adequate background. Such a documentation shall be attached to the admission application.

If the applicant is admitted, compulsory additional subjects shall be communicated together with the admission and before enrolment, in order to provide students with the necessary information for a transparent and rational choice.

Requirements concerning the English language proficiency levels are presented in Paragraph 7.4.

 

Application for admission

A Bachelor of Science Degree (Laurea) is required for the evaluation of the career, as well as a higher degree (MSc, Laurea Magistrale). The evaluation can be carried out also for students enrolled in Politecnico di Milano BSc, if they are candidates in the next Graduation session, and for students enrolled in BSc of other Italian Universities, if they shall graduate before enrolling to the MSc. In any case, the applications of students enrolled in BSc of other Italian Universities are evaluated only after the achievement of the Bachelor degree to communicate by means of degree certificate or self-certification.

Admission requirements concerning the academic career considered by the Commission are as follows:

  1. average graduation mark not below the “adjusted” admission threshold (see later);
  2. certification of the English language proficiency (please see Paragraph 7.4);
  3. further subjects and knowledge as detailed in Paragraph 6.2.

 If the requirements stated at point 1) of the above list is not satisfied, the Commission will not admit the applicant to the Master of Science degree course. If the requirements stated at either point 2) or 3) of the above list are not satisfied, the applicant will be accepted to the Master of Science degree course and enrolled, after having satisfied these conditions, by demonstrating his/her proficiency in English and/or obtaining the necessary prerequisites identified and communicated by the Commission.

 

Number of years for achieving the Bachelor

The number of years for achieving the Bachelor of Science, named as “N”, is the half of the number of semesters occurring from the year of first enrolment in any University to the achievement of the BSc Graduation (semesters end at March 31st or October 31st). For the sake of clarification, N can assume the following values:

  • For students who enrolled at the Bachelor of Science in September 2019 and will earn their BSc degree no later than September 2022 (6 semesters): N = 3
  • For students who enrolled at the Bachelor of Science in September 2019 and will earn their BSc degree no later than February 2023 (7 semesters): N = 3,5
  • For students who enrolled at the Bachelor of Science in September 2019 and will earn their BSc degree no later than September 2023 (8 semesters): N = 4
  • For students who enrolled at the Bachelor of Science in September 2019 and will earn their BSc degree no later than February 2024 (9 semesters): N = 4,5

 

"Adjusted" admission threshold for candidates with a BSC issued by Politecnico di Milano

Students who earned their Bachelor of Science degree with a score lower than the “adjusted” admission threshold SC will not be admitted to attend to the Master of Science in Mechanical Engineering. The ‘score’ is the average of the exams’ scores, weighted by the CFU of each exam. For the 2022-2023 academic year, for candidates with a BSc issued by Politecnico di Milano, the “adjusted” threshold is calculated according to this formula:

 

SC = S + k * (min(N,N1)-3)

 

Where k = ½, N1=8 and S is defined as follows:

 

Study Course of the BSc Graduation

S

Mechanical Engineering, Aerospace Engineering, Energy Engineering, Production Engineering at Politecnico di Milano, enrolled at Bachelor of Science after 2007/2008

22

Other Engineers from Politecnico di Milano

24

Graduates in Mechanical Engineering in other Italian universities

23

Other graduates

26

 

The score verification is carried out by rounding average grade and admission threshold to the first digit.

 

English Proficiency

For a list of the recognised certificates and their respective minimum requirements, please see Paragraph 7.4.

 

Admission without compulsory prerequisites

To be admitted to the MSc in Mechanical Engineering when the Bachelor of Science degree programme is evaluated as being “consistent” with the study programme of the Master of Science degree course. The Evaluation Commission verifies these requirements, also ascertaining the need of imposing any prerequisite (i.e. additional compulsory modules) to fill possible gaps.

Please see Paragraph 6.2, for a presentation of the evaluation process.

 

Transfer between campuses
The request for transfer between Campuses must be submitted by the student well in advance to the Coordinator of the Study Program. The authorization to transfer between Campuses is subject to the evaluation of an Admissions Commission appointed by the Coordinator of the Study Program.


6.2 Requested knowledge

In order to be admitted to the Master of Science in Mechanical Engineering, applicants must have acquired a knowledge base that is consistent with the study programme offered in the degree course. The evaluation of the adequacy of this knowledge base uses as a reference framework the programme of the Bachelor of Science degree course in Mechanical Engineering, with the “introductory course” orientation (“propedeutico”). This means that any prerequisite that is required to prospect students derives either from a lack of “consistency” with the applicant’s Bachelor of Science degree course.

 

In detail, the opportunity to enroll, without curricular supplements, the Master of Science in Aeronautical Engineering, Space, Energy and Mechanical Engineering is given to graduates with Preparatory track in Mechanical Engineering, Aerospace Engineering, Energy Engineering, Production Engineering at Politecnico di Milano.

 

To students who wish to avail themselves of this opportunity, it is advisable to compare their curriculum with the Study track of the Master of Science choice and to adapt their own preparations, taking into account the Table II (table of minimum requirements).

Study track provides graduates with professional Master of Science in Mechanical Engineering from the Politecnico of Milano will be assigned curricular supplements as indicated in Table I.

 

Graduates from the professional guidelines of other courses at the Politecnico of Milan and to all graduates with professional curricula of other universities, however, will be assigned curricular supplements for a number of CFU of not less than a total number of credits allocated to the Internship, elaborate and to the final degree of Bachelor achieved.

 

The Admissions Commission will evaluate on a case by case how to share any supplement from among the courses.


Table I: List of curricular supplements to be obtained BEFORE enrolment in the Master of Science for graduates (MD 270) with a Professional Study Plan in Mechanical Engineering from the Politecnico di Milano. While preparing the application, candidates can request the substitution of the courses  “Metodi analitici e numerici per l’ingegneria” and “Statistica” of the BSc in Mechanical Engineering with the equivalent courses marked in Italics2

CFU

INSEGNAMENTO

Impiantistica Industriale

Motori e Turbomacchine

Processi Tecnologici

Veicoli

Progettazione

Macchine ed Impianti di Produzione (PC)

10

Metodi analitici e numerici per l’ingegneria (cod. 054361)

Metodi analitici e numerici per l’ingegneria (cod. 086214)

x

x

x

x

x

x

5

Statistica (cod.086449)

 

x

 

x

x

 

5

Metodi di Calcolo delle Strutture (cod. 086437)

 

 

x

x

x

x

6

Meccanica delle vibrazioni (cod. 086453)

x

x (1

x

 

 

x

8

Laboratorio di progettazione meccanica A (cod. 054358) e B (cod. 054359)

x

x (1)

 

 

 

 

 

Totale CFU

23

20/22

20

19

19

20

 

Notes:

1. According to the elective course chosen in the bachelor degree.

2. The examining board assigns the debits by giving priority to courses attended before the application. Substitutions are possible as detailed in Table 1, but the candidate should explicitly include such request in the NOTE form while submitting the application. Later requests will not be taken into consideration.

 

Table II: Minimum requirements for admission to the Master of Science

Ambito

SSD

CFU

Algebra, Analisi Matematica, Calcolo numerico, Geometria, Informatica,  Meccanica Razionale, Ricerca Operativa, Statistica

MAT 02/03/05/06/07/08/09,

SECS S01, ING-INF 05

30

Fisica, Chimica

FIS 01/03, CHIM 07

15

Elettrotecnica

ING-IND 31/32/33

5

Economia, Impianti industriali, Impianti aerospaziali

ING-IND 05/17/35

10

Fisica tecnica, Meccanica dei fluidi, Fluidodinamica

ING-IND 06/10/11, ICAR 01

15 (1)

Propulsione, Macchine, Sistemi energetici

ING-IND 07/08/09

5 (1)

Automatica, Meccanica generale, Meccanica Applicata, Meccanica dei Solidi, Tecnologia, Materiali

ING-IND 03/04/12/13/14/15/16

ING-IND 21/22, ICAR 08

ING-INF 04

40 (2)

Totale

 

120

Note (1)   In the view of students lacking a few credits in one of these areas, no debits will be assigned if the sum is higher or equal to 20 credits.

Note (2)    In this area up to a maximum of 5 credits in Automatica ING-INF 04 can also be counted.

At the time of admission will be validated to  student, in no more than 32 credits, credits relating to the teachings of the first year of the LM in Mechanical Engineering, input supernumerary in the previous  Degree.

 

Graduates originating from other Programmes at the Politecnico di Milano and all graduates originating from professional specialisations at other Universities will in any case be assigned a number of curricular supplements equivalent to a number of credits not less than the number of credits associated with the Internship, Graduation Thesis and Final Exam of the Bachelor of Science obtained. The admissions Commission will evaluate case by case how to divide such supplements among courses.


Procedures for the application of prerequisites

An applicant who has been assigned any prerequisites may attend “Individual Courses”, in the period before the enrolment to the Master of Science. The following three opportunities exist:

  • Earn credits by passing courses at the Master of Science level, by means of the “Individual Courses” program; these credits will be accepted to part of the 120 credits necessary for the Master of Science degree.
  • Earn the ‘right to attend’ of courses at the Master of Science level. The same as before if the exam was not passed.
  • Earn credits related to the additional compulsory modules, as requested by the Evaluation Commission for the Master of Science. These credits shall be not accounted within the 120 credits required for the Master of Science degree.

Furthermore, the following restrictions are in force:

  1. The total amount of credits (by passing exams or only attending courses) that can be accounted under the 120 credits required for the Master of Science degree cannot exceed 32. Credits in excess of 32 could be only accepted as ‘over-limit exams’ (soprannumero).
  2. In any case, the total amount of credits earned by passing “individual courses” cannot exceed 80, including credits of compulsory prerequisites.

6.3 Deadlines for admission and number of places available

 Detailed information concerning deadlines and available places can be found in the enrolment guide.

6.4 Tutoring and students support

The School of Industrial and Information Engineering provide tutoring services to assist students during their studies. This service involves reference student-tutors and professor-tutors. Further information can be found on the School Website www.ingindinf.polimi.it .


7. Contents of the study Program

7.1 Programme requirements

In order to obtain the degree of Master of Science in Mechanical Engineer, 120 credits must be acquired. Those credits may be gained by passing with a positive grade the 12 exams, as indicated in the document illustrating the details of the courses and by presenting a mandatory Master of Science's thesis.

7.2 Mode of study

The single courses of the Mechanical Engineering course are taught in a conventional way (lessons, exercises lessons, computer labs, experimental labs, design&review labs) but, when required, different teaching methods may be adopted in accordance with the Dublin's descriptors of teaching objectives.
Class attendance is not mandatory but is strongly suggested.


Teaching consists of lectures on basic and more theoretical subjects, while during exercises and laboratories aspects of a more application nature will be highlighted. For certain courses laboratories for carrying out and interpreting experiments are organised.

7.3 Detailed learning objectives

1 Year courses - Track: NDE - Mechanical Engineering


Code Educational activities SSD Course Title Language Sem CFU CFU Group
095838CING-IND/21APPLIED METALLURGY16,06,0
095840BING-IND/16ADVANCED MANUFACTURING PROCESSES110,010,0
095837B,CING-IND/13
ING-IND/32
ING-INF/04
CONTROL AND ACTUATING DEVICES FOR MECHANICAL SYSTEMS19,09,0
DATA ANALYSIS FOR MECHANICAL MEASUREMENTS AND SYSTEMS
057944BING-IND/12DATA ANALYSIS FOR MECHANICAL MEASUREMENTS AND SYSTEMS15,0
[1,0Innovative teaching]
5,0
095839BING-IND/09ENERGY SYSTEMS LM27,07,0
095841BING-IND/14MACHINE DESIGN 2210,010,0
095842BING-IND/13MECHANICAL SYSTEM DYNAMICS25,05,0
095844BING-IND/17DESIGN AND MANAGEMENT OF PRODUCTION SYSTEMS210,010,0

2nd Year Courses

The second year of the Master Degree in Mechanical Engineering in the Lecco Campus offers a study plan dedicated to "Engineering Design and Manufacturing" consisting of: 32 credits for courses; 6 credits of project work; 2 credits of horizontal competencies (additional educational activities - DM270, art. 10, paragraph 5, letter d - delivered through workshops) and 18 credits for the thesis and final exam.

Educational objectives

The Engineering Design and Manufacturing track offers a mix of competencies related to the design, development and production of mechanical systems and industrial production systems.

Students of the Mechanical Engineering study programme will have the chance to select courses related to the following topics:

  • design and optimization of mechanical systems with a specific focus on automatic systems and robots;
  • detail design of mechanical components and optimization of their mechanical properties;
  • measurement techniques and devices for testing and monitoring mechanical systems;
  • technologies and tools for virtual and physical prototyping;
  • metallic alloys and related transformation processes;
  • optimization of production systems with respect to quality and costs.
The overall goal is the education of engineers with excellent theoretical background and professional skills, with a profile of competencies suitable to face with high flexibility the challenges of technological innovation in industry, and with strong scientific and practical knowledge to address traditional tasks of mechanical engineering.

Educational activities

The Project Work module is held with the support of companies interested in developing innovation projects in the field of mechanical engineering. Mechanical engineering MS students of the Lecco campus can access the project work once they have 49 CFU credits of the 1st year courses obtained not later than in the first exam session pf the period preceeding the semester when the project work will take place. This is a mandatory requirement to allow for the proper organization of the interaction with companies.

The project work module is offered in both semesters; students willing to attend should communicate at least 2 weeks before the start of the semester their intention and preferences sending an email to didattica-lecco@polimi.it

Workshop on horizontal competencies are organized within the break in the middle of the two semesters, and/or in the week at the end of the semesters, before the start of the exam session. The workshops programme and the registration forms are published on the related web page on BeeP. The admission to the workshop and the registration of the 2 CFU credits is allowed only to students with at least 49 CFU credits recorded in the Mechanical Engineering MS programme of Politecnico di Milano.

Master of Science theses are conducted in areas that characterise the chosen study plan. 


Industrial Production

 

Educational Objectives

 

The Master of Science in Mechanical Engineering oriented towards Industrial Production provides the cultural and design skills necessary to deal with process design, a typical element of industrial production. In particular, in addition to having the ability to face and solve problems related to manufacturing in general, a Master of Science graduate will also have an in-depth knowledge of both metallic materials and transformation technologies.

After obtaining a solid grounding in engineering design, Master of Science graduates will be equipped with the necessary skills to deal with the close correlation that exists between materials and transformation technologies in order to optimize industrial production both in terms of cost-effectiveness and quality. Furthermore, they will be capable of handling technological transfer and innovation both as regards materials as well as working technologies.

Thanks to the inter-relationship between problems related to metallic materials and mechanical working techniques, the Master of Science graduate will be given the scope for employment in industrial design and production activities and will have the necessary broad application skills to guarantee the reliability and quality of products without losing sight of the economic aspect.

The second year of the programme includes:


2 Year courses - Track: ML5 - Engineering Design and Manufacturing


Code Educational activities SSD Course Title Language Sem CFU CFU Group
051581CING-IND/21LABORATORY OF MECHANICAL METALLURGY18,032,0
051583BING-IND/13ROBOTICS AND MECHATRONICS18,0
051584BING-IND/14LIGHTWEIGHT DESIGN OF SMART MECHANICAL SYSTEMS18,0
091506BING-IND/12MEASURING TECHNIQUES AND SENSORS FOR AUTOMATION B18,0
051585BING-IND/15COMPUTER-AIDED DESIGN AND MECHANICAL PROTOTYPING18,0
051141BING-IND/14METODI SPERIMENTALI PER LA DIAGNOSTICA STRUTTURALE26,0
055861CING-IND/21FAILURE ANALYSIS E INGEGNERIA FORENSE26,0
052447CING-IND/35STRATEGIC PLANNING IN REAL PRACTICE26,0
054831BING-IND/15METHODS AND TOOLS FOR SYSTEMATIC INNOVATION C - INNOVATION AND INTELLECTUAL PROPERTY MANAGEMENT16,0
[1,0Innovative teaching]
057536BING-IND/12
ING-INF/06
SMART SPORT INFRASTRUCTURES (a)25,0
055863BING-IND/16DE-MANUFACTURING B16,0
097523CING-IND/32ELECTRICAL DRIVES FOR INDUSTRY AND TRANSPORT APPLICATIONS26,0
097601BING-IND/09POWER PRODUCTION FROM RENEWABLE ENERGY B26,0
097550BING-IND/13MECHATRONIC SYSTEMS AND LABORATORY B16,0
053419BING-IND/13ROBOTIC SYSTEMS DESIGN16,0
------Courses to be chosen from Group AMBASSADOR TABLE B------
058209B,CING-IND/12
ING-IND/13
ING-IND/14
ING-IND/15
ING-IND/16
ING-IND/21
PROJECT WORK16,0
[6,0Innovative teaching]
6,0
058209B,CING-IND/12
ING-IND/13
ING-IND/14
ING-IND/15
ING-IND/16
ING-IND/21
PROJECT WORK26,0
[6,0Innovative teaching]
052444----THESIS PREPARATION: HORIZONTAL COMPETENCIES12,0
[2,0Innovative teaching]
20,0
052444----THESIS PREPARATION: HORIZONTAL COMPETENCIES22,0
[2,0Innovative teaching]
052442----THESIS WORK AND FINAL DEFENCE118,0
052442----THESIS WORK AND FINAL DEFENCE218,0

(a) Course dedicated to the Smart Infrastructures Ambassadors program

7.3.1 Internal Double Master of Science Degree


The Internal Double Master of Science degree programmes are joint programmes developed in cooperation with another Study Course with the aim of integrating the mechanical engineer competence profile with different disciplines, in order to answer to the needs of some specific sectors through a new professional profile.

For further information on Internal Double Master of Science degree curricula, please check the followings:

https://www.mecheng.polimi.it/master-of-science/courses-ms/?lang=en

https://www.ingindinf.polimi.it/en/1/teaching/educational-offer/internal-double-degree


7.3.2 Professional profile Ambassador in Smart Infrastructures


Politecnico di Milano aims at strengthening the skills related to smart infrastructures in the Master of Science degree programmes.

The goal of this track is to create new professional profiles in Smart Infrastructures: MSc graduates with forefront systemic skills, interdisciplinary vision, digital skills, specific aptitude to innovation. The Ambassador in Smart Infrastructures corresponds to a professional figure with both advanced and specialized skills in specific applications (infrastructures) and/or enabling technologies (smart), as well as transversal skills, complementary to the above-mentioned specialized ones. These skills will allow the students to broaden their knowledge in the smart infrastructures domain and to adopt a systemic approach to the design, management, innovation, and study of the life cycle of infrastructures.

The training programme is articulated within the MSc educational path and sets at 130 credits (thus at least 10 credits in addition to the standard MSc requirements) the minimum number of credits needed to complete the selected MSc and, at the same time, to qualify for the certification in Ambassador in Smart Infrastructures.

As part of the educational path, the student will have to acquire from 8 to 14 CFU from Table A and from 18 to 24 CFU from Table B. Overall, for the completion of the path at least 30 CFU must be selected from the two Tables, in compliance with the ranges defined above.

The Ambassador in Smart Infrastructures certification will be reported in the Student’s Diploma Supplement and will be recognized by issuing a specific digital badge.

Students who will not obtain the required extra 10 credits and the 30 credits in training activities functional to the Ambassador in Smart Infrastructures profile will not be precluded from obtaining a MSc degree.


Track: * - Table A
Code Course Title CFU Language Programme Track Semester(s) Campus
053419 ROBOTIC SYSTEMS DESIGN 6,0 EN Any programme Any Track 1 BV
054831 METHODS AND TOOLS FOR SYSTEMATIC INNOVATION C - INNOVATION AND INTELLECTUAL PROPERTY MANAGEMENT 6,0 EN Any programme Any Track 1 BV
097523 ELECTRICAL DRIVES FOR INDUSTRY AND TRANSPORT APPLICATIONS 6,0 EN Any programme Any Track 2 BV
097550 MECHATRONIC SYSTEMS AND LABORATORY B 6,0 EN Any programme Any Track 1 BV

Track: * - Table B
Code Course Title CFU Language Programme Track Semester(s) Campus
050493 TECHNOLOGIES FOR SENSORS AND CLINICAL INSTRUMENTATION 1 - BIOE 430 5,0 EN Any programme Any Track 2 MI
052422 GEOGRAPHIC INFORMATION SYSTEMS 10,0 EN Any programme Any Track 2 MI
052577 SISTEMI PER L'AUTOMAZIONE E LA COMUNICAZIONE INDUSTRIALE 5,0 IT Any programme Any Track 1 MI
054165 ELECTROMAGNETIC COMPATIBILITY B 10,0 EN Any programme Any Track 2 MI
054309 LOCALIZATION, NAVIGATION AND SMART MOBILITY 5,0 EN Any programme Any Track 2 MI
054323 INTERNET OF THINGS 5,0 EN Any programme Any Track 2 MI
054330 WIRELESS AND MOBILE PROPAGATION 5,0 EN Any programme Any Track 2 MI
055513 ADVANCED MEASUREMENT SYSTEMS FOR CONTROL APPLICATIONS 5,0 EN Any programme Any Track 2 BV
055681 ELECTRIC POWER SYSTEMS 10,0 EN Any programme Any Track 1 MI
055683 RELIABILITY ENGINEERING AND QUALITY CONTROL 10,0 EN Any programme Any Track 1 MI
055892 DIGITAL SECURITY MANAGEMENT 5,0 EN Any programme Any Track 1 BV
056807 AUTOMATION AND CONTROL IN AUTONOMOUS VEHICLES 5,0 EN Any programme Any Track 1 MI
056901 SYSTEMS AND METHODS FOR BIG AND UNSTRUCTURED DATA 5,0 EN Any programme Any Track 1 MI
056949 DIGITAL MANUFACTURING 5,0 EN Any programme Any Track 1 BV
056950 INDUSTRIAL AUTOMATION AND ROBOTICS 5,0 EN Any programme Any Track 1 BV
056954 DIGITAL FACTORY 5,0 EN Any programme Any Track 1 BV
056985 SMART MAINTENANCE MANAGEMENT 5,0 EN Any programme Any Track 1 BV
057006 DIGITAL TWIN FOR ENERGY SYSTEMS MANAGEMENT 8,0 EN Any programme Any Track 2 BV
057012 GLOBAL SUPPLY CHAIN PLANNING 5,0 EN Any programme Any Track 1 BV
057051 KNOWLEDGE MANAGEMENT IN INFRASTRUCTURE PROJECTS 5,0 EN Any programme Any Track 2 BV
057252 TECHNOLOGY RISK GOVERNANCE 5,0 EN Any programme Any Track 1 BV
057492 SMART HOSPITAL 5,0 EN Any programme Any Track 2 MI
057498 DATA ANALYTICS FOR SMART AGRICULTURE 5,0 EN Any programme Any Track 1 MI
057501 SMART BUILDINGS, NEIGHBORHOODS, AND CITIES 5,0 EN Any programme Any Track 2 MI
057527 RISK-BASED MANAGEMENT AND MONITORING OF INFRASTRUCTURE NETWORKS 5,0 EN Any programme Any Track 1 MI
057530 DATA MODELLING FOR URBAN PERFORMANCE 5,0 EN Any programme Any Track 2 LC
057536 SMART SPORT INFRASTRUCTURES 5,0 EN Any programme Any Track 1, 2 --
057539 METHODS FOR SYSTEM HEALTH MONITORING AND PROGNOSIS 5,0 EN Any programme Any Track 1, 2 BV
057542 SMART MATERIALS AND METAMATERIALS 5,0 EN Any programme Any Track 1 MI
058594 INFORMATION SYSTEMS FOR THE MAINTENANCE AND MANAGEMENT 9,0 EN Any programme Any Track 1 --
088637 CIRCOLAZIONE E SICUREZZA STRADALE 8,0 IT Any programme Any Track 1 MI
088641 TECNICA ED ECONOMIA DEI TRASPORTI 10,0 IT Any programme Any Track 2 MI
089013 ROBOTICS 5,0 EN Any programme Any Track 2 MI
090871 TRASPORTI MARITTIMI E INTERMODALI 6,0 IT Any programme Any Track 2 MI
090915 PRODUCTION SYSTEMS CONTROL 5,0 EN Any programme Any Track 2 MI
093060 SAFETY IN AUTOMATION SYSTEMS 5,0 EN Any programme Any Track 1 MI
094783 FUNDAMENTALS OF COMMUNICATION NETWORKS 5,0 EN Any programme Any Track 1 MI
094784 FUNDAMENTALS OF ELECTROMAGNETIC FIELDS 5,0 EN Any programme Any Track 1 MI
095879 BRIDGE THEORY AND DESIGN 10,0 EN Any programme Any Track 1 MI
095898 COMPUTING INFRASTRUCTURES 5,0 EN Any programme Any Track 2 MI
097683 MACHINE LEARNING 5,0 EN Any programme Any Track 2 MI
099234 NEW SENSORS AND MEASUREMENT SYSTEMS FOR CIVIL ENGINEERING 6,0 EN Any programme Any Track 1, 2 MI

7.3.3 Professional profile Ambassador in Green Technologies


Politecnico di Milano aims at strengthening the skills related to green technologies in the Master of Science degree programmes.

The goal of this track is to create new professional profiles in Green Technologies: MSc graduates with forefront systemic skills, interdisciplinary vision, and attention to innovation for environmental sustainability and the decarbonisation of the economy. The Ambassador in Green Technologies corresponds to a professional figure with both advanced and specialized skills in the "green" field, as well as transversal skills, complementary to the specialized ones. These skills which allow the students to broaden their knowledge in the green technologies domain and to adopt a systemic approach to design, management, innovation, and study of the life cycle of green technologies.

The training programme is articulated within the MSc educational path and sets at 130 credits (thus at least 10 credits in addition to the standard MSc requirements) the minimum number of credits needed to complete the selected MSc and, at the same time, to qualify for the certification in Ambassador in Green Technologies.

As part of the educational path, the student will have to acquire from 8 to 14 CFU from Table A and from 18 to 24 CFU from Table B. Overall, for the completion of the path at least 30 CFU must be selected from the two Tables, in compliance with the ranges defined above.

The Ambassador in Green Technologies certification will be reported in the Student’s Diploma Supplement and will be recognized by issuing a specific digital badge.

Students who will not obtain the required extra 10 credits and the 30 credits in training activities functional to the Ambassador in Green Technologies profile will not be precluded from obtaining a MSc degree.


Track: * - Table A
Code Course Title CFU Language Programme Track Semester(s) Campus
054831 METHODS AND TOOLS FOR SYSTEMATIC INNOVATION C - INNOVATION AND INTELLECTUAL PROPERTY MANAGEMENT 6,0 EN Any programme Any Track 1 BV
055863 DE-MANUFACTURING B 6,0 EN Any programme Any Track 1 BV
097523 ELECTRICAL DRIVES FOR INDUSTRY AND TRANSPORT APPLICATIONS 6,0 EN Any programme Any Track 2 BV
097601 POWER PRODUCTION FROM RENEWABLE ENERGY B 6,0 EN Any programme Any Track 2 BV

Track: * - Table B
Code Course Title CFU Language Programme Track Semester(s) Campus
050693 WATER RESOURCES MANAGEMENT 6,0 EN Any programme Any Track 1 MI
051509 DIRITTO DELL'ENERGIA 5,0 IT Any programme Any Track 2 BV
052389 ELECTRIC CONVERSION FROM GREEN SOURCES OF ENERGY 8,0 EN Any programme Any Track 2 BV
052396 FUELS FROM FOSSIL AND RENEWABLE SOURCES 8,0 EN Any programme Any Track 1 BV
052572 MATERIALS FOR ELECTRICAL APPLICATIONS 5,0 EN Any programme Any Track 1 MI
054154 ENGINEERING STRUCTURES FOR THE ENVIRONMENT 16,0 EN Any programme Any Track 1 LC
054193 POLLUTION MEASUREMENT 5,0 EN Any programme Any Track 2 MI
054905 NATURAL RESOURCES MANAGEMENT 10,0 EN Any programme Any Track 2 MI
055386 RENEWABLE ENERGY SOURCES 5,0 EN Any programme Any Track 1 MI
055634 ENERGY ECONOMICS 8,0 EN Any programme Any Track 2 BV
055635 ENERGY AND CLIMATE CHANGE MODELING AND SCENARIOS 8,0 EN Any programme Any Track 2 BV
055638 ELECTROCHEMICAL ENERGY CONVERSION AND STORAGE 8,0 EN Any programme Any Track 2 BV
055642 ENGINEERING AND COOPERATION FOR DEVELOPMENT 8,0 EN Any programme Any Track 1 BV
055685 ELECTRIC PROPULSION 10,0 EN Any programme Any Track 1 MI
055686 POWER GENERATION AND RENEWABLES 10,0 EN Any programme Any Track 2 MI
055771 AGRI-FOOD SUPPLY CHAIN PERSPECTIVES 5,0 EN Any programme Any Track 1 MI
055807 EMERGING TECHNOLOGIES AND SOCIETAL CHALLENGES 5,0 EN Any programme Any Track 2 BV
056810 AUTOMATION AND CONTROL IN ELECTRIC AND HYBRID VEHICLES 5,0 EN Any programme Any Track 2 MI
056913 LIFE CYCLE ASSESSMENT OF MATERIALS AND PROCESSES 5,0 EN Any programme Any Track 2 MI
057013 GREEN LOGISTICS 5,0 EN Any programme Any Track 2 BV
057017 CIRCULAR INDUSTRIAL SYSTEMS 5,0 EN Any programme Any Track 1 BV
057018 CIRCULAR ECONOMY BUSINESS MODELS 5,0 EN Any programme Any Track 1 BV
057020 GLOBAL ENVIRONMENTAL CHALLENGES 5,0 EN Any programme Any Track 2 BV
057021 MANAGEMENT FOR SUSTAINABILITY AND IMPACT 5,0 EN Any programme Any Track 1 BV
057536 SMART SPORT INFRASTRUCTURES 5,0 EN Any programme Any Track 1, 2 --
057539 METHODS FOR SYSTEM HEALTH MONITORING AND PROGNOSIS 5,0 EN Any programme Any Track 1, 2 BV
057728 SOLID WASTE MANAGEMENT AND TREATMENT 10,0 EN Any programme Any Track 1 MI
057975 CATALYTIC TECHNOLOGIES FOR EMISSION CONTROL 5,0 EN Any programme Any Track 2 MI
057977 CHEMISTRY AND MATERIALS FOR ENERGY 5,0 EN Any programme Any Track 2 MI
057978 PROCESSES FOR HYDROGEN AND ENERGY TRANSITION 5,0 EN Any programme Any Track 2 MI
057987 ELECTROCHEMICAL TECHNOLOGIES FOR ENERGY PRODUCTION AND STORAGE 5,0 EN Any programme Any Track 2 MI
058589 ASSISTIVE AND WEARABLE DEVICES FOR INCLUSIVITY 5,0 EN Any programme Any Track 2 BV
058594 INFORMATION SYSTEMS FOR THE MAINTENANCE AND MANAGEMENT 9,0 EN Any programme Any Track 1 --
085722 ECOLOGIA E SOSTENIBILITA' DEI SISTEMI PRODUTTIVI 8,0 IT Any programme Any Track 2 MI
087073 ELECTRIC CONVERSION OF RENEWABLE ENERGY SOURCES 8,0 EN Any programme Any Track 1 PC
088719 INQUINAMENTO ATMOSFERICO 10,0 IT Any programme Any Track 2 MI
088776 MITIGAZIONE DEI CAMBIAMENTI CLIMATICI 8,0 IT Any programme Any Track 1 MI
090907 AIR POLLUTION AND CONTROL ENGINEERING 10,0 EN Any programme Any Track 1 PC
094798 STRUCTURE DURABILITY: MONITORING AND CONTROL 6,0 EN Any programme Any Track 1 LC
096125 INTRODUCTION TO GREEN AND SUSTAINABLE CHEMISTRY 5,0 EN Any programme Any Track 1 MI
097314 DE-MANUFACTURING 5,0 EN Any programme Any Track 1 BV
097365 ENGINEERING OF SOLAR THERMAL PROCESSES 8,0 EN Any programme Any Track 1 BV
097461 ECOSYSTEMS CONSERVATION AND MANAGEMENT 10,0 EN Any programme Any Track 1 MI
098454 STRUTTURE BIOARTIFICIALI E BIOMIMETICHE 5,0 IT Any programme Any Track 1 MI
099247 INDUSTRIAL ECOLOGY 8,0 EN Any programme Any Track 1 PC
099248 FLUID MACHINES FOR LOW-CARBON TECHNOLOGIES 8,0 EN Any programme Any Track 2 PC
099251 BIO-ENERGY AND WASTE-TO-ENERGY TECHNOLOGIES (I.C.) 10,0 EN Any programme Any Track 1 PC
099254 RENEWABLE ENERGY AND LOW-CARBON TECHNOLOGIES (I.C.) 10,0 EN Any programme Any Track 2 PC
099296 WATER AND WASTEWATER TREATMENT TECHNOLOGIES 8,0 EN Any programme Any Track 1 MI
099302 PRODOTTI DA RISORSE RINNOVABILI 5,0 IT Any programme Any Track 1 MI

7.3.4 Professional profile Ambassador in Inclusivity Design


Politecnico di Milano aims at strengthening the skills related to inclusivity design in the Master of Science degree programmes.

The goal of this track is to create new professional profiles in Inclusivity Design: MSc graduates with forefront systemic skills, interdisciplinary vision, and attention to innovation for fostering inclusivity. The Ambassador in Inclusivity Design corresponds to a professional figure who is able to:

  • design contexts, spaces, artefacts, infrastructures, technologies, products and inclusive services for the elderly, women, children, adolescents and the disabled, enhancing the sense of equity;
  • deal with migrations forced by current events (e.g. climate change, wars), and make our cities and companies capable of responding to geopolitical challenges through the idea of "antifragility", which makes the crisis and uncertainty opportunities for the evolution;
  • develop post-pandemic transformations, rethinking cities (from homes to workplaces, from public spaces to infrastructures), relationship within ecosystems, cultural, social and economic structures and technological innovations, also through digitization.

The training programme is articulated within the MSc educational path and sets at 130 credits (thus at least 10 credits in addition to the standard MSc requirements) the minimum number of credits needed to complete the selected MSc and, at the same time, to qualify for the certification in Ambassador in Inclusivity Design.

As part of the educational path, the student will have to acquire from 8 to 14 CFU from Table A and from 18 to 24 CFU from Table B. Overall, for the completion of the path at least 30 CFU must be selected from the two Tables, in compliance with the ranges defined above.

The Ambassador in Inclusivity Design certification will be reported in the Student’s Diploma Supplement and will be recognized by issuing a specific digital badge.

Students who will not obtain the required extra 10 credits and the 30 credits in training activities functional to the Ambassador in Inclusivity Design profile will not be precluded from obtaining a MSc degree.


Track: * - Table A
Code Course Title CFU Language Programme Track Semester(s) Campus
054831 METHODS AND TOOLS FOR SYSTEMATIC INNOVATION C - INNOVATION AND INTELLECTUAL PROPERTY MANAGEMENT 6,0 EN Any programme Any Track 1 BV
055861 FAILURE ANALYSIS E INGEGNERIA FORENSE 6,0 IT Any programme Any Track 2 BV

Track: * - Table B
Code Course Title CFU Language Programme Track Semester(s) Campus
054954 SUSTAINABLE MANUFACTURING 5,0 EN Any programme Any Track 1 BV
055653 ETHICS FOR TRANSPORTATIONS 5,0 EN Any programme Any Track 1 BV
057026 COLLABORATIVE INNOVATION FOR SUSTAINABILITY AND IMPACT 5,0 EN Any programme Any Track 1 BV
057036 INNOVATION IN HEALTH AND SOCIAL CARE 5,0 EN Any programme Any Track 1 BV
057044 AGILE INNOVATION 5,0 EN Any programme Any Track 2 BV
057870 DIVERSITY AWARE DESIGN OF TECHNOLOGY SOLUTIONS 5,0 EN Any programme Any Track 2 MI
058450 INCLUSIVE DESIGN 6,0 EN Any programme Any Track 1 BV
058583 INCLUSIVE DIGITAL TECHNOLOGIES 5,0 EN Any programme Any Track 2 MI
058586 HUMAN ROBOTICS 5,0 EN Any programme Any Track 2 BV
058589 ASSISTIVE AND WEARABLE DEVICES FOR INCLUSIVITY 5,0 EN Any programme Any Track 2 BV
058595 CARESPACES 5,0 EN Any programme Any Track 2 --
058597 DESIGN FOR ALL IN THE BUILT ENVIRONMENT. EVALUATION TOOLS FOR INCLUSIVE STRATEGIC DESIGN. 5,0 EN Any programme Any Track 2 --
058598 DESIGNING AND TESTING FOR INCLUSIVITY 5,0 EN Any programme Any Track 2 BV
097327 PRODUCT LIFE CYCLE MANAGEMENT 5,0 EN Any programme Any Track 2 BV

7.4 Foreign language

Knowledge of English is a prerequisite for enrolment in a Master of Science Programme. The regulations foreseen by the University are published on the University Website in the Student Services Section, Guides and Regulations - English Language. All students, to be admitted to the Master of Science in Mechanical Engineering, must have completed a certification attesting to the knowledge of the English language at least to level B2 of the CEF (Common European Framework) and this is a necessary prerequisite for enrolment.

7.5 Degree examination

Examination of Master of Science focuses on the discussion of a Thesis. The preparation of the thesis requires an effort estimates as 20 credits, one of which is specifically dedicated to the acquisition of additional language skills, certified by the authorship of the thesis in English.

Furthermore, the thesis shall be develpment according to the rules and specification of the School in Industrial and information Engineering:

https://www.mecheng.polimi.it/wp-content/uploads/2021/02/Regolamento-Integrativo-Laurea-Magistrale-ING_MECCANICA_Marzo-2017.pdf

also taking into consideration the specific demands of the Mechanical Engineering study programme:

 

https://www.mecheng.polimi.it/master-of-science/?lang=en

 

Among the others, the thesis should be developed on a subject and on a scientific domain (SSD) included in the study plan selected by the MS candidate.


8. Academic calendar


9. Faculty

The names of the professors teaching the Programme and corresponding courses will be available in the study manifesto starting from September. The Study Manifesto is published annually on the Politecnico di Milano website www.polimi.it .


10. Infrastructures and laboratories

Student services

Student services are involved in guidance and career management for students enrolled in Bachelor and Master of Science courses, student benefits and grants, international mobility and all those services in support of university life. Student services.

https://www.polimi.it/en/current-students/

http://www.polo-lecco.polimi.it/en/ 

 

Departmental Secretaries

Toll-free number: 800.420.470  (Monday to Friday, 9:30 am - 12:30 pm)

 

General information on the programme in Mechanical Engineering

helpccs@mecc.polimi.it

 

Student IT services.

https://www.polimi.it/en/current-students/a-chi-rivolgersi/desks-and-offices-for-students/

 

 


11. International context

Research at the Politecnico di Milano combines , in a parallel path , the dense network of cooperative relationships with other Italian and foreign universities , research centers and public and private, with the industrial system. The quality and impact of research carried out at the Polytechnic is confirmed , in recent years , the growth of relations with the international scientific community. Proof of this is the large number of projects and programs of research recently undertaken with the best universities in Europe and other countries.

Various research groups that contribute to the teaching of the Master's Degree in Mechanical Engineering were evaluated as " excellent at international level" , including:

ADVANCED MATERIALS
ANALYSIS , DESIGN AND MANAGEMENT OF MANUFACTURING SYSTEMS
DESIGN AND TESTING GROUND VEHICLES
MANUFACTURING PROCESSES
MECHANICAL AND THERMAL MEASUREMENTS
MECHATRONICS AND ROBOTICS
PRODUCT LIFECYCLE MANAGEMENT
RAILWAY DYNAMICS
ROAD VEHICLE DYNAMICS
ROTORDYNAMICS
METALLURGICAL AND STEEL MAKING PROCESSES
STRUCTURAL INTEGRITY AND DESIGN OF RAILWAY COMPONENTS
VIRTUAL PROTOTYPING
WIND ENGINEERING


12. Internationalization

The School of Industrial and Information Engineering of Politecnico di Milano promotes mobility programs in view of the formation of an international experience during their university studies.

The opportunities are numerous, including:

  • study period abroad under the Erasmus program , or special programs outside the EU ;
  • international dual degree programs (which includes the achievement of a double degree program in a period of three years , two of which are spent at the foreign partner institution);
  • Alliance4Tech mobility programme (https://www.alliance4tech.eu/) that involves the following international partners: CentraleSupélec, Politecnico di Milano, Technische Universität Berlin, UCL University College London;
  • Enhance mobility programme (https://enhanceuniversity.eu/) that involves the following international partners: Technische Universität Berlin, Warsaw University of Technology, Universitat Politècnica de València, Politecnico di Milano RWTH Aachen, NTNU Norwegian University of Science and Technology, Chalmers University of Technology;
  • development of the thesis abroad.

13. Quantitative data

The Didactic Observation Unit and the Evaluation Nucleus perform periodic analysis on the overall results analysing the teaching activities and the integration of graduates into the work world. Reports and studies are available on the website of the Politecnico di MIlano.

14. Further information

For any further information the student is invited to consult the Website of the School of Industrial and Information Engineering and the reference pages of the Programme in Mechanical Engineering

https://www.polo-lecco.polimi.it/en/

http://www.ingindinf.polimi.it/en/

https://www.mecheng.polimi.it/?lang=en

helpccs@mecc.polimi.it


15. Errata corrige