1. General Information

School	School of Industrial and Information Engineering
Code Reference Law	354
Name	Mechanical Engineering
Reference Law	Ordinamento 270/04
Class of degree	L-9 - Industrial Engineering
Degree level	Laurea (Equivalent To Bachelor Of Science)
First year of activation	2008/2009
Official length of the programme	3
Years of the programme already activated	1,2,3
Official language(s)	Italian
Campus	Piacenza
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 - Piacenza

Address

VIA G. B. SCALABRINI, 76 (PC)

2. General presentation of the study programme

The Mechanical Engineering programme is designed to produce professionals that are capable of carrying out many different roles 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 great variety of tasks and duties 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. This set-up dedicates a great deal of attention 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 encorage the capacity to reconfigure themselves adapting to the changes of professional reality in which they will operate.

The three 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 industrial processes 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 Mechanical Engineering programme’s structure is in line with the decrees on universities’ teaching autonomy and in response to the needs on structuring and improving the academic level, with the aim of favouring the entrance of mechanical engineers on the job market.  Through the structure and objectives of this programme, it introduces highly innovative characteristics and is based on a series-configured study route progressing to the qualification of:

• Bachelor of Science (BSc) which is awarded after a three-year programme, after which the title of Mechanical Engineering Graduate is awarded. In the first year a solid preparation in the preparatory and foundation disciplines is provided, followed in the second year by a more engineering-orientated education in the main sectors of mechanics. In the third year, students choose between various professional tracks and one preparatory one. The means of access to the third preparatory year and the career paths are laid down in section 7 of this document.
• Master of Science (MSc) this is awarded after two years, following awarding of the Bachelor of Science. In the first year, high level engineering education is reinforced with an increase in knowledge of advanced analysis methodologies that in the second year are applied to Master of Science modules and in the Master of Science thesis development. Admission to the Mechanical Engineering Master of Science is by an entrance test based on an examination of students’ previous careers and on an assessment to ascertain whether students’ preparation is sufficient.
• Research Ph.D. (PhD), awarded after studying for a further three years after the Master of Science. The Research Ph.D. was devised and organised to prepare professionals of a high cultural profile with extensive knowledge that allows them to satisfy the demands of companies, research bodies and of universities. Admission to carry out a Research Ph.D is regulated by a test.

In support of the regulations, students are encouraged to consult the Schoolof Industrial Engineering website http://www.ingindinf.polimi.it

 

For more informations about the mechanical Engineering Program, is also active email address mailto:helpccs@mecc.polimi.it

 

 

 

Table I: General structure of the Mechanical Engineering Programme

4.2 Further Studies

The qualification grants access to "Laurea Magistrale" (2nd degree), "Corso di Specializzazione di primo livello" (1st level Specialization Course) and "Master Universitario di primo livello" (1st level University Master)

Bachelor in Mechanical Engineering  grants access to  Master of  Science of Politecnico, usually as a result of an examination or interview prepared by a special committee to analyze the curriculum of educational, cultural motivations and further complementary characteristics (work experience, internships, study periods abroad, extracurricular activities) of the applicant.

Selection to admission to  Master of Science in Mechanical Engineering is based on the assessment of the previous career and on the adequacy of personal preparation (DM 28/11/00); the weighted average of the marks obtained in the Bachelor of Science is therefore central. This selection will be carried out during the periods provided by the academic calendar on dates advertised by notices on the website of the School of Industrial and Information Engineering www.ingindinf.polimi.it.

Admission to the Master of Science does not automatically imply recognition of all educational credits acquired in prior studies. Any curricular supplements and/or recognitions will be assigned by the admissions Commission according to the previous career. Any curricular supplements necessary to complete the preparation must be completed before enrolment in the Master of Science itself. Any insertion of additional Master of Science courses in the Bachelor of Science study plan and corresponding acquisition of credits is not a guarantee of admission.. Curricular supplements may be acquired as additional courses in the Bachelor of Science career or via single course.

For more information on the minimum requirements and admission modality, consult Degree Programme of Master of Science in Mechanical Engineering of Politecnico.

5. Professional opportunities and work market

5.1 Professional status of the degree

The Bachelor Mechanical Engineer is a professional technician with academic background, able to design and develop mechanical products and processes, to coordinate the installation and the commissioning of complex machines and mechanical systems, to manage and maintain production plants, and finally to perform technical controls, verifications and technical services at industrial level. The technical skills acquired by Bachelor in mechanical Engineering are typically focused on the mechanical industry sector, even though those skills can be deployed in the broader industrial engineering field, or in service oriented companies and in the public administration
Mechanical engineers trained in this way have multiple opportunities to work in the various mechanical sectors. In particular, students will be able to develop a mechanical systems project from a functional, construction and energetic point of view, the layout and running project of the machinery of a plant, in additional to its optimal use. There are also opportunities in the manufacturing industry and in production plants in terms of design, production, the development of new technologies, measurement techniques and choosing the most appropriate materials. In addition to the production and services field, graduates can find employment with local authorities or research bodies. In particular, each qualification of each academic level set out previously, corresponds to a professional figure that can be applied directly to the job market.

5.2 Careers options and profiles

Mechanical engineers has ample opportunity to exercise his professional activity in the industrial sector. In particular, he is able to develop a mechanical systems project from a functional, construction and energetic point of view, the layout and running project of the machinery of a plant, in additional to its optimal use. There are also opportunities in the manufacturing industry and in production plants in terms of design, production, the development of new technologies, measurement techniques and choosing the most appropriate materials. In addition to the production and services field, graduates can find employment with local authorities or research bodies. In particular, each qualification of each academic level set out previously, corresponds to a professional figure that can be applied directly to the job market.

 

5.3 Qualification profile

Mechanical engineer

profile in a work context:

the Graduate student in Mechanical Engineering is a technician with university preparation, able to lead the executive design of product and process, the development of products, the integration and testing of complex systems and machines, the maintenance and management of production departments, as well as the carrying out of control, verification and technical assistance.
The graduate student acquires the skills that allow him/her to mainly work in the mechanical industries, but often also in the wider sector of industrial engineering, service companies and public bodies. The basic, scientific and technical application preparation also allows to the mechanical engineer to easily study in detail that topics that can be found necessary for the development of their professional activity.

skills of this function:

Graduate student in mechanical engineering have specific skills:

- development of the project in mechanical systems from a functional, construction and energetic point of view;

- design ideas and requirements;

- analyse the machines, in relation to their functioning and durability of their components;

- choose materials and technological processes to be used in the realization of components and products;

- define and analyse problems and collaborate in their resolution even in heterogeneous training groups;

- manage and use to his/her best the machinery of the structure.

Job opportunities:

The mechanical engineer has a good scientific approach which is supported by extensive technical-application contents, that help their immediate professional integration and therefore s/he has the opportunity to practice his/her professional activity in the industrial field. Traditional applications in the manufacturing industries, in production and service structures and service networks, concern the design, production, maintenance of machines, systems and plants, the use of new technologies, as well as in production activity and as support to production, the graduate student can find a place in public administrations or research institutions, in which to put the acquired knowledge to good use.

6. Enrolment

6.1 Access requirements

Italian secondary school leaving qualification or other comparable foreign qualification (level 4 EQF)

Secondary school leaving qualification or other qualification recognized as equivalent (obtained abroad).

According to article 6 of Ministerial Decree 270/04, admission to Bachelor of Science Programmes is subject to possession of a four or five-year high school diploma or other qualification obtained abroad and recognised to be suitable.

To enrol in the first year an admission test, aimed at ascertaining student aptitude, preparation and knowledge of the English language , must be passed. For this purpose, the University organizes an on-line engineering test (Test On Line - TOL) in scheduled sessions from March to July and August / September.

As an alternative to admission test TOL, to enter only the first phase of registration, you can take the test TOLC of CISIA (Test On Line CISIA - Interuniversity Consortium for Integrated Systems for Access)

http://www.poliorientami.polimi.it/come-si-accede/test-di-ingegneria/tolc-test-on-line-cisia

To access only the first phase of registration, be exempt from sustaining the admission test TOL those who have achieved certain scores in one of the following international tests: SAT (SAT Test and SAT Subject Test), GRE and GMAT

6.2 Requested knowledge

The tests on (TOL) is composed of two sections:

• TEST: probing the oral comprehension skills, knowledge, logical-mathematical and physical properties acquired during high school;
• TENG (Test of Inglese): ensures the knowledge of the English language.

The TOL takes place on personal computers, computerized classrooms within the different branches of the university, and consists in the solution of 65 questions to answer multiple in 1 hour and 50 minutes as follows:

• English: 30 questions in 15 minutes
• Logic, Mathematics and Statistics: 25 questions in 75 minutes
• Understanding verbal: 5 questions in 10 minutes
• Physics: 5 questions in 10 minutes

6.3 Deadlines for admission and number of places available

Requests from Politecnico di Milano students who want to move to the Bachelor Degree are accepted only if the student has reached, by the 15th of August, a number of registered ECTS greater or equal to 40, including supplementary courses in the student's study plan. The Commission in charge of student transfers for the Degree Programme will determine which of these courses will be acknowledged as useful for attaining the degree.

The commission will accept any transfer requests only after evaluating the student's educational curriculum and considering the number of available seats.

Students who are already enrolled on other degree programmes of the Politecnico di Milano or at other Universities and wish to move to the Programme can request acknowledgement of any ECTS they have already earned.

6.4 Tutoring and students support

The School of Industrial Engineering provides tutoring services to assist students during their studies, particularly in the first three years. This service involves students-tutor and professor-tutor. Further information can be found on the School website.

7. Contents of the study Program

7.1 Programme requirements

In order to obtain the degree of Bachelor in Mechanical Engineering, 180 credits (CFU) must be acquired. The academic activities necessary for acquiring this amount of credits are detailed in the "Teaching Regulations" document.
In particular, a minimum number of 45 CFU must be acquired by basic education activities (mathematics, informatics, chemistry, physics), a minimum number of 60 CFU must be obtained within specific education activities (basic disciplines of mechanical engineering and energy engineering) and finally a number of credits obtained with complementary activities (courses on specific disciplines and industrial internships/stages in the case of the professional tracks).
In the first year priority is given to preparation of mathematical, physics and chemistry principles but already from the first term, engineering-orientated disciplines are provided, developed fully in the second year and partly in the third, with modules in the main mechanics sectors.
In this way, a mechanical engineer's preparation is established on a solid scientific foundation to which the specific mechanical engineering subjects connect (Applied Mechanics, Machine Design, Mechanical Technologies, Materials, Methods of Technical Representation, Mechanical and Thermal Measurements).
In the third year, there is a possible choice between two alternatives: alongside the preparatory track, which has additional basic content that is useful for the subsequent Master of Science route, there are different vocational tracks with a traineeship to be carried out in a company.

As per the Undergraduate Programme, the study plan submitted by the student is effective for one year. Therefore, every year the student must select, add to the study plan and submit new courses along with the ones not passed during the previous year - according to what stated in the Regulation. Beware that the Final Exam, unless somehow related to a module not passed, and the Internship must be added to the study plan only once since the student's enrollment. 

Traineeship

To assist students in joining the working world, the vocational tracks in the Mechanical Engineering programme include in the third year a compulsory preparation to the traineeship (2 CFU credits) and a traineeship (16 CFU credits) to be carried out in a company.

The preparatory path to the traineeship can be accessd by students of the vocational tracks once they have gained 100 CFU credits (to be acquired before registering to the preparation to the trainesheep) and consists of 4 modules delivered both in the first and in the second semester. Students involved in an outgoing mobility programme can plan, upon agreement with the coordinator of the international mobility, the acquisition of the credits related to the preparation of the trainesheep during the mobililty period, as far as they reach 100 CFU credits once the mobility is over.

For general information and to understand how company traineeships are allocated, see the document available on the School of Industrial Engineering and Information website

The traineeship is an  educational experience carried out in an Italian or foreign company under agreement with the Politecnico di Milano. During the traineeship, students experience real company problems and situation, as per an educational project in which analysis methodologies and resolutions learnt during the programme must be applied. Students will apply the methodologies and skills acquired during their chosen track for the third year to their field of interest. During the traineeship, students make their engineering background available to companies. They actively participate in collaboration with the company personnel with identifying and resolving problems and acquire company know-how on the issue at hand, being in a totally operative context.  Access and participation in the compulsory traineeship are subject to passing 135 CFU credits (not including the credits related to the preparation to the trainesheep) and also to the availability of traineeship offers from companies in their pre-chosen track field along with subsequently passing an interview carried out in-company.
Students are advised not to leave it too late so that traineeships can be allocated, compatibly with reaching the necessary credits, in as little time as possible. Therefore, students are asked to  take the time to research the internship, as described in this document, which is available on the website of the School of Industrial and Information Engineering .

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 theDublin's descriptors of teaching objectives. Class attendance is not mandatory but is strongly suggested
The programme includes attendance at lessons and exercises and participation in laboratory activities, possibly with compulsory attendance, and seminars and visits.

7.3 Detailed learning objectives

The tables in this section describe the structure of the study tracks foreseen by the study programme board within the M.D. 270/04. The course programmes can be consulted on the School of  Industrial and Information Engineering website ( www.ingindinf.polimi.it ) where general notices for students are also published.

 Consider also Table V on the recommended priorities, set out in this document.

Students coming from other universities or other Politecnico di Milano programmes can apply to have their credits recognised. Cases will be examined individually by an ad hoc study programme board committee.

1 Year courses - Track: MEC - non differenziato

Code	Educational activities	SSD	Course Title		Language	Sem	CFU	CFU Group
081360	A	MAT/03 MAT/05	ANALISI E GEOMETRIA 1			1	10,0	10,0
081374	A	CHIM/07	FONDAMENTI DI CHIMICA			1	7,0	7,0
081369	A	ING-INF/05	INFORMATICA B			1	7,0	7,0
081376	B	ING-IND/15	METODI DI RAPPRESENTAZIONE TECNICA			1	7,0	7,0
052431	A	MAT/03 MAT/05	ANALISI E GEOMETRIA 2			2	10,0 [1,0]	10,0
081389	A	FIS/01	FONDAMENTI DI FISICA SPERIMENTALE			2	12,0	12,0
081377	C	ING-IND/21	METALLURGIA E MATERIALI NON METALLICI			2	7,0	7,0

Note:

 

• of the 7 credits assigned to Computer B (code 081369), 1 CFU is dedicated to further learning activities(Article 10, paragraph 5, letter d of DM270/04: computer skills and computer systems)

2 Year courses - Track: MEC - non differenziato

Code	Educational activities	SSD	Course Title		Language	Sem	CFU	CFU Group
083442	B	ING-IND/14	COSTRUZIONE DI MACCHINE 1			1	10,0	10,0
083400	B	ING-IND/10	FISICA TECNICA (PER INGEGNERIA MECCANICA)			1	10,0	10,0
083443	C	ING-IND/31 ING-IND/32 ING-IND/33	PRINCIPI DI INGEGNERIA ELETTRICA			1	8,0	8,0
054828	B	ING-IND/13	MECCANICA APPLICATA ALLE MACCHINE			2	10,0 [1,0]	10,0
083445	B	ING-IND/12	MISURE MECCANICHE E TERMICHE			2	10,0	10,0
083447	B	ING-IND/16	TECNOLOGIA MECCANICA 1			2	10,0	10,0

3rd Year Courses

 

In the third year students will be able to choose between a preparatory track and a professional one.

 

1  Piacenza		Preparatory
2  Piacenza		Production Plants and Machinery

 

3 Year courses - Track: Preparatory

Preparatory track

Students can log on to the preparatory track only if they fulfil one of the following conditions:

• average grade 24/30 or higher (all credits estimated at 30 September of the second calendar year following the year of enrollment) and with at least 95CFU registred;
• average grade higher or equal to 23,5/30 on at least 100CFU registred;
• average grade higher or equal to 23/30 on at least 105CFU registred.

This track offers all fundamentals useful for the following Master of Science.

3 Year courses - Track: Production plants and machinery track

Production Plants and Machinery Track

 

The objective of this track is to train engineers skilled to understand the production problems of manufacturing companies.

Code	Educational activities	SSD	Course Title		Language	Sem	CFU	CFU Group
083503	C	ICAR/01	MECCANICA DEI FLUIDI			1	7,0	7,0
086635	B	ING-IND/08 ING-IND/09	MACCHINE E SISTEMI ENERGETICI			2	10,0	10,0
086468	B	ING-IND/17	IMPIANTI MECCANICI			1	7,0	7,0
086513	B	ING-IND/14	MODELLAZIONE E CALCOLO ASSISTITO DI STRUTTURE MECCANICHE			2	6,0	6,0
086514	B	ING-IND/16	MACCHINE UTENSILI			1	6,0	6,0
086515	B	ING-IND/17	LOGISTICA INDUSTRIALE			2	5,0	5,0
052433	--	--	INTERNSHIP PREPARATION		--	1	2,0 [2,0]	18,0
052433	--	--	INTERNSHIP PREPARATION		--	2	2,0 [2,0]
052439	B	ING-IND/08 ING-IND/09 ING-IND/14 ING-IND/16 ING-IND/17	TRAINING (PRODUCTION PLANTS AND MACHINERY TRACK)		--	1	16,0
052439	B	ING-IND/08 ING-IND/09 ING-IND/14 ING-IND/16 ING-IND/17	TRAINING (PRODUCTION PLANTS AND MACHINERY TRACK)		--	2	16,0
086614	B	ING-IND/08 ING-IND/09 ING-IND/14 ING-IND/16 ING-IND/17	FINAL DEGREE TEST		--	1	3,0	3,0
086614	B	ING-IND/08 ING-IND/09 ING-IND/14 ING-IND/16 ING-IND/17	FINAL DEGREE TEST		--	2	3,0

Recommended priorities

Currently there are no compulsory examination priorities, nevertheless, there are recommendations that it is suggested should be adhered to. From the 2011/2012 academic year, a number of these priorities could pass from recommended to compulsory. Please check the italian version for updated information.

Codice	Insegnamento	Codice	Precedenze consigliate	Codice	Precedenze obbligate (di verbalizzazione)
81372	Analisi e geometria 2	81360	Analisi e Geometria 1
83442	Costruzione di macchine 1	81376	Metodi di Rappresentazione Tecnica
		81360	Analisi e Geometria 1
		81389	Fondamenti di Fisica Sperimentale
83400	Fisica tecnica	81360	Analisi e Geometria 1
		81372	Analisi e Geometria 2
		81389	Fondamenti di Fisica Sperimentale
81389	Fondamenti di fisica sperimentale	81360	Analisi e Geometria 1
		81374	Fondamenti di Chimica
75950	Fondamenti di Turbomacchine	86470	Macchine e Sistemi Energetici
54358 54359	Laboratorio di progettazione meccanica A e B	86437	Metodi di calcolo delle strutture	81376	Metodi di Rappresentazione Tecnica
		54828	Meccanica Applicata alle Macchine
		83447	Tecnologia Meccanica 1
86515	Logistica industriale	86468	Impianti Meccanici
86470	Macchine e sistemi energetici	83400	Fisica Tecnica
		83503	Meccanica dei fluidi
86514	Macchine utensili	81377	Metallurgia e materiali non metallici
		83447	Tecnologia Meccanica 1
83444	Meccanica applicata alle macchine	81360	Analisi e Geometria 1
		81372	Analisi e Geometria 2
		81389	Fondamenti di Fisica Sperimentale
		83442	Costruzione di Macchine 1
		81376	Metodi di Rappresentazione Tecnica
83503	Meccanica dei fluidi	81360	Analisi e Geometria 1
		81372	Analisi e Geometria 2
		81389	Fondamenti di Fisica Sperimentale
86453	Meccanica delle vibrazioni	83444	Meccanica Applicata alle macchine
81377	Metallurgia e materiali non metallici	81374	Fondamenti di Chimica
54361	Metodi analitici e numerici per l’ingegneria	81369	Informatica B	81360	Analisi e Geometria 1
				81372	Analisi e Geometria 2
86437	Metodi di calcolo delle strutture	81369	Informatica B	81372	Analisi e Geometria 2
		83442	Costruzione di Macchine 1
83445	Misure meccaniche e termiche	81372	Analisi e Geometria 2
		81389	Fondamenti di Fisica Sperimentale
		83442	Costruzione di Macchine 1
		83400	Fisica Tecnica
		83443	Principi di Ingegneria Elettrica
83443	Principi di ingegneria elettrica	81372	Analisi e Geometria 2
		81389	Fondamenti di Fisica Sperimentale
83447	Tecnologia meccanica I	81377	Metallurgia e Materiali non metallici
		81376	Metodi di Rappresentazione Tecnica

7.4 Foreign language

University regulations are set out in the document “Foreign Languages – Regulations on meeting the compulsory academic requirement to learn a European Union language” which is published on the University website.

Students are invited to carefully read this document and must comply with the regulations

7.5 Degree examination

For the preparatory track (aimed at continuing preparation for the Master of Science), the final examination consists of a multi-disciplinary project to be carried out in teams. For the other tracks, the final examination consists of presenting and discussing an essay on the activities carried out during the compulsory traineeship, carried out by the undergraduate in companies in the mechanical engineering sector.

8. Academic calendar

The academic calendar of the Schools of Engineering is available at the University link.

9. Faculty

The names of professors for each Course, together with their subject, will be available on the degree programme starting from the month of September.
The degree programme is annually published on the website of Politecnico di Milano.

The names of professors for each Course, together with their subject, will be available on the degree programme starting from the month of September.
The degree programme is annually published on the website of Politecnico di Milano www.polimi.it .

 

The names of professors for each Course, together with their subject, will be available on the website of the School of Industrial and Information Engineering

 

www.ingindinf.polimi.it

 

10. Infrastructures and laboratories

 Student services

Student services provide students enrolled on Bachelor and Master of Science Programmes with guidance and counselling, career services, information on rights to study, international mobility and all services providing support to university life.

Students further information

http://www.polimi.it/en/students/services-for-students/

  

Student IT services.

Information Area for Students and Professors http://www.polimi.it/en/students/services-for-students/ict-services/

11. International context

The Politecnico di Milano’s School of Industrial Engineering intends to actively promote student mobility programmes, given the educational importance of an international experience during university studies.

From the 3^rd year onwards of a Bachelor of Science programme, students can choose to continue their studies for a variable period of one term to two years at a foreign university that theSchool ofIndustrial Engineering deems of a good level and with which the Politecnico has signed an exchange agreement.

These periods of time will be fully acknowledged and exams of the Politecnico courses that will be replaced with those equivalent at the foreign university will be specified one by one. Scores achieved in examinations passed abroad, provided they can be converted to reach a mark out of thirty with criteria deemed to be reasonably reliable by the study programme board, will be valid and count towards the average of scores earned.

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 ;
• 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.

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 all other information students are invited to consult the School of Industrial and Information Engineering website and the relevant pages of the study programme in Mechanical Engineering.

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

https://www.mecheng.polimi.it/ 

15. Errata corrige