Unit

MATERIALS LABORATORIES

Code	70A00013
CFU	4
Teacher	Luca Valentini
Teachers	Luca Valentini
Hours	32 ore - Luca Valentini
Learning activities	Affine/integrativa
Area	Attività formative affini o integrative
Academic discipline	ING-IND/22
Type of study-unit	Opzionale (Optional)
Language of instruction	Italian
Contents	The course “Material Lab” is concerning the theoretical and practical aspects related with the analysis of material properties and in particular of polymer based materials. More in detail the following issues will be treated during the course: Mechanical and rheological properties, UV and IR spectroscopy, microscopic analysis with SEM, analysis and surface modification with Plasma and AFM, deposition techniques of thin film, thermal properties of polymer based materials, electrical and optical properties of polymer based materials.
Reference texts	Materials supplied by the teacher
Educational objectives	The main objectives of the course is to transfer to the students the knowledge and practical abilities required to analyse the main material properties in particular for polymer based materials. The main knowledge that will be transferred to the students will be: - Basic elements of mechanical and viscoelastic behaviour of polymer based materials - Main features of dynamometer and rheometer - Basic concepts of polymer processing both for thermoplastics and thermosettings - Basic elements of thermal properties of polymer based materials - Main fetures of DSC and TGA instruments - Basic concepts of spectroscopy applied to polymer based materials - Main features of UV and FTIR equipments - Basic concept of technology of the surfaces for polymer based materiuals - Main features of a plasma reactor and AFM microscopy - Basic elements of electron microscopy and SEM features The main practical abilities will be: - Be able to perform a basic tensile mechanical test for polymer based materials - Be able to perform a basic thermal test for polymer based materials - To analyse a stress strain curve as well as DSC and TGA data for polymer based materials - To analyse the min elements of a spectroscopic test for polymer based materials - To analyse the basic elements in SEM and AFM for polymer based materials
Teaching methods	The course is structured with two didactic methods: face to face and laboratory experiences. Face to face lessons will be dedicated to the theoretical part of the course, the laboratory experiences will be dedicated to the practical and training activities.
Other information	Frequenza: Recommended Sede: Ingegneria Strada di Pentima Terni Consultancy every monday after the lesson. In the other part of the year on request by e-mail communication. Examinations
Learning verification modality	Written examination.
Extended program	The course “Material Lab” points to teach the main theoretical and practical competences concerning the properties and relative measurements instruments in the field of material science and in particular in polymer based materials. The course is structured in two phases; the first one dedicated to the theoretical concepts and the second one dedicated to the visual observation of such techniques in the lab. The following issues will be afforded during the course: Mechanical and rheological properties, UV and IR spectroscopy, microscopic analysis with SEM, analysis and surface modification with Plasma and AFM, deposition techniques of thin film, thermal properties of polymer based materials, electrical and optical properties of polymer based materials.

OF ELECTRICAL ENGINEERING LABORATORY

Code	70A00012
CFU	4
Teacher	Antonio Faba
Teachers	Antonio Faba
Hours	32 ore - Antonio Faba
Learning activities	Affine/integrativa
Area	Attività formative affini o integrative
Academic discipline	ING-IND/31
Type of study-unit	Opzionale (Optional)
Language of instruction	Italian
Contents	Laboratory training about components and electrical devices as electrical machines, power converters and applications about electromagnetic compatibility.
Reference texts	Slides delivered by the teacher.
Educational objectives	Technical knowledge and competence about components and devices in the field of electrical machines, power converters and electromagnetic compatibility.
Prerequisites	Electrical Engineering
Teaching methods	Lessons and Laboratory training.
Learning verification modality	Oral interview about a report on the laboratory training.
Extended program	Working priciple of multimeters, oscilloscopes and spectrum analyzers. Measurements of resistances, inductances and capacitances. Call back about conventional tests for electrical machines. Call back about power converters. Introduction to filters and their characterization. Introduction to electromagnetic compatibility, shieding and semi anechoic chambers, test of radiated and conducted emissions. Laboratory training - Measurements of resistances, inductances and capacitances. - Evaluation of the equivalent circuit of a transformer. - Characterization of a power cinverters. - Characterization of a filter. - Measurement of the current harmonic of an electrical device. - Measurement of the characteristic impedence of a cable. - Measurement of the conducted emission of an electrical device. - Measurement of the radiated emission of an electrical device.

LABVIEW FOR MACHINES AND ELECTRIC DRIVES

Code	70A00014
CFU	4
Teacher	Ermanno Cardelli
Teachers	Ermanno Cardelli
Hours	32 ore - Ermanno Cardelli
Learning activities	Affine/integrativa
Area	Attività formative affini o integrative
Academic discipline	ING-IND/31
Type of study-unit	Opzionale (Optional)
Language of instruction	Italian
Contents	LabVIEW functions, blocks and syntaxl. aboratory exercises about electrical machines and drives.
Reference texts	LabVIEW Core 1 and 2 manuals and exercise books
Educational objectives	Manage LabVIEW software and the basic operations: databases, dataflow, hardware configuration, acquire data, save data. Applications to electrical machines and drives.
Prerequisites	Electric networks. Basic theory of electric machines.
Teaching methods	Lectures and laboratory works
Other information	Meet the teacher.
Learning verification modality	Formulation and deliver of a specific application via Labview.
Extended program	Learn how to develop basic applications in the LabVIEW graphical programming environment Create applications using a state machine design pattern Read and write data to file Design, implement, and distribute stand-alone applications using LabVIEW Apply design patterns for application about electrical machines and drives.