CERN Accelerating science

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Title SUBU Characterisation: Bath Fluid Dynamics vs Etching Rate
Author(s) Perez Rodriguez, Alejandra (CERN) ; Ferreira, Leonel (CERN) ; Sublet, Alban (CERN)
Publication 2018
Number of pages 5
In: 18th International Conference on RF Superconductivity, Lanzhou, China, 17 - 21 Jul 2017, pp.TUPB078
DOI 10.18429/JACoW-SRF2017-TUPB078
Subject category Accelerators and Storage Rings
Abstract The chemical polishing bath SUBU is widely used at CERN to prepare copper RF cavities surfaces before niobium thin film coating; examples are HIE-ISOLDE, LHC and future FCC accelerating cavities. The performance of the polishing process is affected by bath temperature and fluid dynamics. As part of on-going activities to characterise SUBU, the actual study was done to identify a correlation between the etching rate and physical parameters linked to the bath fluid dynamics. A first approach was made using experimental data from a simplified model setup, transposing them via numerical simulation to a real cavity geometry and verifying the agreement with an experiment in a real size (HIE-ISOLDE) mock-up. In a second approach to improve the accuracy of the calculation, the relation of the measured local etching rates, extracted from the mock-up, to flow dynamics quantities extracted from simulation was investigated. As a result, a correlation between the local etching rate and the turbulence kinetic energy was obtained. This correlation can be exploited to improve the polishing tools and so optimise the current process, as well as to predict the etching rate in other cavity geometries.
Copyright/License CC-BY-3.0

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 Record created 2019-05-08, last modified 2019-05-08


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