Address book
Contacts
FABRIZIO DUGHIERO
Position
Professore Ordinario
Address
VIA G. GRADENIGO, 6/A - PADOVA
Telephone
0498277708
Notices
Office hours
Monday from 9:00 to 10:00
at Dipartimento di Ingegneria Industriale - Via Gradengo 6/a - Saletta VerdeTuesday from 17:00 to 18:00
at Dipartimento di Ingegneria Industriale - Via Gradengo 6/a - Saletta Verde
Teachings
- ELECTROMAGNETIC PROCESSING OF MATERIALS, AA 2024 (INQ1099020)
- ELECTRICAL SCIENCE, AA 2024 (IN20102562)
- ELECTROMAGNETIC PROCESSING OF MATERIALS, AA 2023 (INQ1099020)
- ELECTRICAL SCIENCE, AA 2023 (IN20102562)
- ELECTROMAGNETIC PROCESSING OF MATERIALS, AA 2022 (INQ1099020)
- ELECTROMAGNETIC PROCESSING OF MATERIALS, AA 2022 (INQ1099020)
- ELECTROMAGNETIC PROCESSING OF MATERIALS, AA 2022 (INP3051531)
- ELECTRICAL SCIENCE, AA 2022 (IN08102562)
- ELECTROMAGNETIC PROCESSING OF MATERIALS, AA 2021 (INP3051531)
- ELECTROMAGNETIC PROCESSING OF MATERIALS, AA 2021 (INP3051531)
- ELECTRICAL SCIENCE, AA 2021 (IN08102562)
- ELECTROMAGNETIC PROCESSING OF MATERIALS, AA 2020 (INP3051531)
- ELECTROMAGNETIC PROCESSING OF MATERIALS, AA 2020 (INP3051531)
- ELECTROMAGNETIC PROCESSING OF MATERIALS, AA 2019 (INP3051531)
- ELECTROMAGNETIC PROCESSING OF MATERIALS, AA 2019 (INP3051531)
- ELECTROMAGNETIC PROCESSING OF MATERIALS, AA 2018 (INP3051531)
- ELECTROMAGNETIC PROCESSING OF MATERIALS, AA 2018 (INP3051531)
- ELECTROMAGNETIC PROCESSING OF MATERIALS, AA 2017 (INP3051531)
- PHOTOVOLTAIC SCIENCE AND TECHNOLOGY, AA 2017 (INP5071677)
- ELECTRICAL SCIENCE, AA 2016 (IN20102562)
- ELECTROMAGNETIC PROCESSING OF MATERIALS, AA 2015 (INP3050934)
- ELECTRICAL SCIENCE, AA 2015 (IN20102562)
- ELECTRICAL SCIENCE, AA 2014 (IN20102562)
- PHOTOVOLTAIC SCIENCE AND ENGINEERING, AA 2014 (INP3051656)
- ELECTRICAL SCIENCE, AA 2013 (IN20102562)
- PHOTOVOLTAIC SCIENCE AND ENGINEERING, AA 2013 (INP3051656)
- ELECTRICAL SCIENCE, AA 2012 (IN20102562)
- PHOTOVOLTAIC SCIENCE AND ENGINEERING, AA 2012 (INO2044778)
Publications
1. Di Barba P., Dughiero F., Forzan M., Mognaschi M.E., Sieni E.,"New solutions to a multi-objective benchmark problem of induction heating: An application of computational biogeography and evolutionary – 2018 -Archives of Electrical Engineering - 67(1), pp. 139-149
2. Di Barba P., Mognaschi M.E., Bullo M., Dughiero F., Forzan M., Lupi S., Sieni E.,"Field models of induction heating for industrial applications – 2018 - Przeglad Elektrotechniczny - 94(3), pp. 1-5
3. Ongaro A., Campana L.G., De Mattei M., Di Barba P., Dughiero F., Forzan M., Mognaschi M.E., Pellati A., Rossi C.R., Bernardello C., Sieni E.,"Effect of electrode distance in grid electrode: Numerical models and in vitro – 2018 - Technology in Cancer Research and Treatment - 17
4. Bernardis A., Bullo M., Campana L.G., Di Barba P., Dughiero F., Forzan M., Mognaschi M.E., Sgarbossa P., Sieni E.,"Electric field computation and measurements in the electroporation of inhomogeneous samples", 2017 - Open Physics - 15(1), pp. 790-796
5. Wen S., Tan Y., Yuan T., Li P., Forzan M., Jiang D., Dughiero F.,"A model for distribution of iron impurity during silicon purification by directional solidification",2017 - Vacuum 145, pp. 251-257
6. Spizzo F., Sgarbossa P., Sieni E., Semenzato A., Dughiero F., Forzan M., Bertani R., Del Bianco L.,"Synthesis of ferrofluids made of iron oxide nanoflowers: Interplay between carrier fluid and magnetic properties",2017, Nanomaterials - 7(11),373
7. Bianchi C., Bonato P., Dughiero F., Canu P.,"Enhanced power density uniformity for microwave catalytic reactions adopting solid-state generators: Comparison with magnetron technology", 2017 - Chemical Engineering and Processing: Process Intensification - 120, pp. 286-300
8. Spezzapria M., Settimi A.G., Pezzato L., Novella M.F., Forzan M., Dughiero F., Bruschi S., Ghiotti A., Brunelli K., Dabalà M.,"Effect of Prior Microstructure and Heating Rate on the Austenitization Kinetics of 39NiCrMo3 Steel", 2017, Steel Research International 88(5),1600267
9. Di Barba P., Dughiero F., Forzan M., Sieni E.,"Handling Sensitivity in multiobjective design optimization of MFH inductors",2017, IEEE Transactions on Magnetics - 53(6)
10. Ruggiero M.R., Crich S.G., Sieni E., Sgarbossa P., Forzan M., Cavallari E., Stefania R., Dughiero F., Aime S.,"Magnetic hyperthermia efficiency and 1H-NMR relaxation properties of iron oxide/paclitaxel-loaded PLGA nanoparticles", 2016 Nanotechnology - 27(28)
Research Area
Electroheat theory and applications - Electromagnetic processing of materials - Hyperthermia and Electroporation for cancer cure - Innovative applications of electroheat technologies in cooking of food - IoT in electro heat processes - Optimization technique applied to the design of electroheat devices and processes