期刊
ALEXANDRIA ENGINEERING JOURNAL
卷 73, 期 -, 页码 47-68出版社
ELSEVIER
DOI: 10.1016/j.aej.2023.04.042
关键词
Uneven erosion wear; Computational fluid dynamics; Particle impact angle; Clearance materials; Localized erosion
In this study, slurry erosion experiments and computational fluid dynamics simulations were conducted to investigate the effect of particle impact velocity and erosion mechanisms on the surface of 38CrMoAlA steel. The results showed that uneven erosive wear occurred on the surface of clearance material, which can be attributed to the variation of particle impact angle affected by fluid streamlines. The most severe erosion site and area changed with the particle impact velocity, and the failure of the clearance material was mainly caused by localized erosion wear. To prolong the service life of downhole tools, the region downstream of the clearance inlet (10 mm from the inlet) should be given priority.
Slurry erosion of clearance fits is one of the primary reasons for the decline in the per-formance of downhole tools. In this study, slurry erosion experiments and computational fluid dynamics simulations were performed to understand the effect of particle impact velocity as well as the erosion mechanisms on the surface of 38CrMoAlA steel. The results indicated that uneven erosive wear occurred along the flow direction on the surface of clearance material. The uneven ero-sive wear can be attributed to the variation of particle impact angle affected by fluid streamlines. The site and the area of the most severe erosion changed arising from the particle impact velocity. The failure of the clearance material was mainly due to the aggravation of localized erosion wear. To extend the service life of downhole tools, the region downstream of the clearance inlet (10 mm from the inlet) should be prioritized.(c) 2023 THE AUTHORS. Published by Elsevier BV on behalf of Faculty of Engineering, Alexandria University. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/ licenses/by-nc-nd/4.0/).
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