Macchina per Additive Manufacturing con Polveri Metalliche
Coordinates
41.9036428022199, 12.514534957176009
Contact name
Paolo Gaudenzi, Silvia Masi
CIVIS Label
No
Acronym
SRI
Scientific domain
PE9_13 - Astronomical instrumentation and data, e.g. telescopes, detectors, techniques, archives, analyses - Universe Sciences
PE9_9 - Cosmology and large-scale structure, dark matter, dark energy - Universe Sciences
PE8_1 - Aerospace engineering - Products and Processes Engineering
PE8_7 - Mechanical engineering - Products and Processes Engineering
Keywords
3D modeling
aerospace
Selective Laser Melting
Partner institution
Sapienza Università di Roma
Website
No
Technical staff available
No
Remote access details
External users will be asked a fee for the mantainance of the machine and for the powder/consumables purchase
Remote access available
No
Open to external users
No
Equipment
To be expanded: as general services conversion from a cad drawing to a digital project to be inserted into the system to produce the parts: limit dimensions of the products: 200mm*200mm*200mm : production of complex 3d metal objects
Open access to updated information database
No
Online booking system details
https://web.uniroma1.it/saperi_co/sites/default/files/allegati/Saperi%26Co_brochure_ITA_web.pdf
Online booking system available
No
Description
Apparato per la produzione additiva basata sulla tecnologia del Selective Laser Melting appartenente alla categoria Powder Bed Fusion. Sistema basato sulla consolidazione laser di polveri metalliche per la produzione di parti a geometria complessa layer by layer direttamente dal modello digitale. La macchina funziona con polveri metalliche, alluminio ad esempio, col quale sono state costruitee provate diverse strutture leggere, e particolarmente adatte a uso in aerospazio e spazio.
EOSINT 290 is an apparatus for additive 3D manufacturing. It does make use of the selective laser melting technique and is part of the ones belonging to the powder bed fusion category. The apparatus works on the high power laser melting followed by the solidification of metallic powders. It does allow the production of parts even with a complex geometry, by forming them directly from the digital model. >Several metals, except copper can be used, as an example aluminium has been used to form structures to be used in aerospace and space applications