The damping properties of NiTi elements produced through selective laser melting are investigated by tuning the process parameters. To this end, twelveparameters' sets are selected to fabricate fully-dense NiTi specimens. Damping is evaluated through loss factor index, mechanical loading cycles (up to 104 cycles), solicitation frequency and strain amplitude. Results confirm that NiTi fabricated through selective laser-beam melting is an excellent candidate to substitute conventional materials when used in the martensite phase. Furthermore, the selected process parameters enable specific damping performances that can be collected in damping maps which turn out to be practical tools for the fabrication of NiTi parts with tunable damping response.

A Study on Damping Property of NiTi Elements Produced by Selective Laser-Beam Melting

Adelaide Nespoli
Primo
;
Elena Villa;Francesca Passaretti;
2021

Abstract

The damping properties of NiTi elements produced through selective laser melting are investigated by tuning the process parameters. To this end, twelveparameters' sets are selected to fabricate fully-dense NiTi specimens. Damping is evaluated through loss factor index, mechanical loading cycles (up to 104 cycles), solicitation frequency and strain amplitude. Results confirm that NiTi fabricated through selective laser-beam melting is an excellent candidate to substitute conventional materials when used in the martensite phase. Furthermore, the selected process parameters enable specific damping performances that can be collected in damping maps which turn out to be practical tools for the fabrication of NiTi parts with tunable damping response.
2021
Istituto di Chimica della Materia Condensata e di Tecnologie per l'Energia (ICMATE) - Sede Secondaria Lecco
damping
additive manufacturing
loss factors
NiTi
selective laser-beam melting
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/428845
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