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Effect of the ultrasonically enhanced water jet on copper surface topography at a low traverse speed
- 1.0533329 - ÚGN 2021 RIV CH eng C - Conference Paper (international conference)
Lehocká, Dominika - Klich, Jiří - Simkulet, V. - Botko, F. - Kovaľ, K. - Kepič, J. - Mitaľová, Z. - Hatala, M.
Effect of the ultrasonically enhanced water jet on copper surface topography at a low traverse speed.
Advances in Water Jetting. Cham: Springer, 2021 - (Klichová, D.; Sitek, L.; Hloch, S.; Valentinčič, J.), s. 126-134. ISBN 978-3-030-53490-5. ISSN 2195-4356. E-ISSN 2195-4364.
[International Conference on Water Jet 2019 - Research, Development, Applications /6./. Čeladná (CZ), 20.11.2019-22.11.2019]
R&D Projects: GA MPO(CZ) FV30233
Institutional support: RVO:68145535
Keywords : copper * surface topography * disintegration * pulsating water jet erosion
OECD category: Applied mechanics
https://link.springer.com/chapter/10.1007/978-3-030-53491-2_14
The article describes the maximum erosion efficiency of an acoustically enhanced pulsating water jet on CW004A copper surface. The copper surface was disintegrated at a traverse speed v = 0.1 mm.s−1, water pressure of 39 MPa and circular nozzle diameter of 1.321 mm. The effect of the PWJ on the copper surface was evaluated based on a surface topography evaluation using an optical profilometry and a scanning electron microscopy analysis. In the experimental investigation, it was found that a low traverse speed rate has destructive effects on the material with significant weight and volume loss of the material. Surface topography was characterized by a formation of protrusions, depressions and craters. Subsurface material failure of up to 200 µm was detected.
Permanent Link: http://hdl.handle.net/11104/0311740
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Number of the records: 1