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Titanium surface roughening with ultrasonic pulsating water jet
- 1.0571431 - ÚGN 2024 RIV NL eng J - Journal Article
Stolárik, G. - Svobodová, J. - Klichová, Dagmar - Nag, A. - Hloch, Sergej
Titanium surface roughening with ultrasonic pulsating water jet.
Journal of Manufacturing Processes. Roč. 90, March 2023 (2023), s. 341-356. ISSN 1526-6125. E-ISSN 2212-4616
R&D Projects: GA MŠMT(CZ) LO1406
Institutional support: RVO:68145535
Keywords : droplet erosion * titanium alloy * surface modification * pulsating water jet * surface roughness
OECD category: Mechanical engineering
Impact factor: 6.1, year: 2023
Method of publishing: Limited access
https://www.sciencedirect.com/science/article/pii/S1526612523001317?via%3Dihub
Biomedical industries are looking for natural ways of processing biocompatible materials to improve their biological performances. One untested option is the use of the water hammer effect in the form of water droplets. This can create surfaces with high degrees of capillary elevation whose structures resemble a trabecular structure. In this study, we analyzed the modified surface morphologies and integrity of the titanium alloy Ti6Al4V using water droplet impingement generated with an ultrasonic pulsating water jet at starting frequencies of f = 20 kHz and 40 kHz. The water droplets were distributed along a linear offset trajectory. Two transition methods for producing modified surface morphologies were compared, one with a single transition and another with an additional secondary transverse transition. The created surfaces were classified according to the area surface roughness parameters, Sa and Sz. The results were compared with a control group of samples exposed to a continuous jet with ff = 0 Hz. By setting the technological parameters of an ultrasonic pulsating water jet, the aim was to create surface properties that increased biological interactions during osseointegration. The results positively support the initial indications that the pulsating water jet surface treatment was a more advantageous alternative than other techniques based on using solid particles for surface erosion, whose artifacts can become lodged in the material and contaminate surfaces.
Permanent Link: https://hdl.handle.net/11104/0342652
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Number of the records: 1