Thesis proposals

Prof. Paolo Colombo

• Large scale additive manufacturing (3DP) of ceramic and glass components from waste materials (with company partnership) – research activity to be carried out at UNIPD
• Light-assisted additive manufacturing of glass (with foreign company partnership) – research activity to be carried out at UNIPD
• Additive manufacturing (DIW) of catalytic ceramic substrates for gas adsorption (with company partnership) – research activity to be carried out at UNIPD
• Additive manufacturing (DIW) of ceramic matrix composites (with foreign company partnership) – research activity to be carried out at UNIPD
• Ceramic-based components for brakes (with company partnership) – research activity to be carried out at UNIPD
• Production of fibre-reinforced geopolymer-based composites – research activity to be carried out at partnered company (Piove di Sacco)
• Gas adsorption on ceramic components produced by additive manufacturing – research activity to be carried out at partnered company (Pordenone)
• Study of devitrification phenomenons on commercial glasses – research activity to be carried out at the Stazione Sperimentale del Vetro (Murano) 
• Control on glass cullet for the production of glass containers – research activity to be carried out at Verallia Group (Vicenza)
• Additive manufacturing and characterization of ceramic components for supercapacitors (with Kansas State University partnership) – research activity to be carried out at UNIPD and KSU (summer)

Prof. Enrico Bernardo

• Multifunctional cellular glasses and glass-ceramics from the reuse of industrial waste
• Innovative glass-ceramic materials from inorganic polymerization of mixtures including waste glasses 
• Glass-ceramic foams, from preceramic polymers containing nano-metric or sinter-crystallization fillers
• Bioactive glass-ceramic materials from preceramic polymers containing micro- and nano-metric inorganic fillers 
• Inorganic phosphors for LED applications from preceramic polymers containing nano-metric inorganic fillers (i.e. Mn: Ca2Al2SiO7, Eu: and Ce: Y-Si-O-N) 

– all research activities to be carried out at UNIPD

Prof. Lisa Biasetto

• Pellets development for multi-materials 3D printing (in collaboration with Polymer Engineering Group-DII)
• Co-extrusion of structures for thermal energy storage systems (in collaboration with Delft Technical University, The Netherlands)
• 3D printing of multi-materials 3D auxetic structures: use of multi-extrusion technology (in collaboration with Helmuth Schmidt Universitate-Germany, Erasmus program)
• Multi-extrusion of engineering plastics, in collaboration with a company
• 3D printing of metal-ceramic components for ultra-high vacuum applications (in collaboration with Laboratoire de L’accelerateur Lineare-LAL, France)