SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3205188422> ?p ?o ?g. }

Showing items 1 to 100 of ±121 with 100 items per page.

W3205188422 endingPage "204133" @default.
W3205188422 startingPage "204133" @default.
W3205188422 abstract "The fabrication of microstructures on surfaces is an innovative approach to relieve slurry erosion. Understanding the effect of the dimensions of the surface microstructure on slurry erosion can inspire new surface treatments, not only for small flow-handling parts but also for large water conservancy facilities. Our previous work has studied the effect of the micro structure's shape on slurry erosion. As an extension, the dimension was investigated based on the selected groove structure. Five V-shaped grooved surface microstructures (V1–V5) with different depths (1–5 mm, respectively) were designed. The effect of groove depth on erosion was studied by scanning electron microscopy observation and mass loss, roughness, and residual stress measurements at a slurry speed of 8.29 m s -1 , particle size of 75–150 mesh, and sand concentration of 3 wt%. The results showed that the best erosion resistance occurred at a critical depth of 3 mm. This was partially due to the low-velocity component in the flow direction and the upward velocity component perpendicular to the flow direction. This velocity distribution inhibited the impingement erosion of the particles inside the groove and simultaneously slowed the incoming particles into the groove. The groove surfaces underwent the most severe erosion, while the top surfaces experienced less erosion, which was relieved by multiple vortices induced by the grooves. The erosion rates of V3, V4, and V5 were lower than those of V1 and V2. The erosion mechanisms are summarized to guide the design optimization of surface microstructures. • Groove with 3 mm depth behaves the best in resisting the slurry erosion. • The erosion of the top surface can be relieved by vortices. • Impingement angle and velocity dominates the erosion of the V-shape groove surface. • The velocity component perpendicular to the flow direction acts as cushion effect." @default.
W3205188422 created "2021-10-25" @default.
W3205188422 creator A5046732185 @default.
W3205188422 creator A5060331090 @default.
W3205188422 creator A5060667253 @default.
W3205188422 creator A5065010580 @default.
W3205188422 date "2022-01-01" @default.
W3205188422 modified "2023-09-29" @default.
W3205188422 title "Effect of groove depth on the slurry erosion of V-shaped grooved surfaces" @default.
W3205188422 cites W1525942548 @default.
W3205188422 cites W1555461661 @default.
W3205188422 cites W1966360167 @default.
W3205188422 cites W1981785734 @default.
W3205188422 cites W1983421671 @default.
W3205188422 cites W1990383412 @default.
W3205188422 cites W1997767533 @default.
W3205188422 cites W2001848411 @default.
W3205188422 cites W2005443387 @default.
W3205188422 cites W2024302493 @default.
W3205188422 cites W2027957720 @default.
W3205188422 cites W2035434751 @default.
W3205188422 cites W2041102093 @default.
W3205188422 cites W2044883115 @default.
W3205188422 cites W2049702724 @default.
W3205188422 cites W2054473622 @default.
W3205188422 cites W2060745964 @default.
W3205188422 cites W2073835359 @default.
W3205188422 cites W2088712126 @default.
W3205188422 cites W2091773311 @default.
W3205188422 cites W2331506897 @default.
W3205188422 cites W2515828498 @default.
W3205188422 cites W2613160320 @default.
W3205188422 cites W2626210110 @default.
W3205188422 cites W2774766196 @default.
W3205188422 cites W2789326856 @default.
W3205188422 cites W2789708639 @default.
W3205188422 cites W2792438596 @default.
W3205188422 cites W2793653496 @default.
W3205188422 cites W2797397709 @default.
W3205188422 cites W2883473670 @default.
W3205188422 cites W2896711901 @default.
W3205188422 cites W2907271793 @default.
W3205188422 cites W2915023214 @default.
W3205188422 cites W2921732044 @default.
W3205188422 cites W2924418820 @default.
W3205188422 cites W2933615673 @default.
W3205188422 cites W2946680736 @default.
W3205188422 cites W2966841106 @default.
W3205188422 cites W2971688704 @default.
W3205188422 cites W2980263394 @default.
W3205188422 cites W3005055513 @default.
W3205188422 cites W3032134512 @default.
W3205188422 cites W3034814757 @default.
W3205188422 cites W3040910465 @default.
W3205188422 cites W3043748777 @default.
W3205188422 cites W3095878813 @default.
W3205188422 cites W3120066462 @default.
W3205188422 cites W2939878974 @default.
W3205188422 doi "https://doi.org/10.1016/j.wear.2021.204133" @default.
W3205188422 hasPublicationYear "2022" @default.
W3205188422 type Work @default.
W3205188422 sameAs 3205188422 @default.
W3205188422 citedByCount "18" @default.
W3205188422 countsByYear W32051884222021 @default.
W3205188422 countsByYear W32051884222022 @default.
W3205188422 countsByYear W32051884222023 @default.
W3205188422 crossrefType "journal-article" @default.
W3205188422 hasAuthorship W3205188422A5046732185 @default.
W3205188422 hasAuthorship W3205188422A5060331090 @default.
W3205188422 hasAuthorship W3205188422A5060667253 @default.
W3205188422 hasAuthorship W3205188422A5065010580 @default.
W3205188422 hasConcept C107365816 @default.
W3205188422 hasConcept C123157820 @default.
W3205188422 hasConcept C127313418 @default.
W3205188422 hasConcept C151730666 @default.
W3205188422 hasConcept C159985019 @default.
W3205188422 hasConcept C191897082 @default.
W3205188422 hasConcept C192562407 @default.
W3205188422 hasConcept C199631012 @default.
W3205188422 hasConcept C2524010 @default.
W3205188422 hasConcept C26771246 @default.
W3205188422 hasConcept C2779472054 @default.
W3205188422 hasConcept C33923547 @default.
W3205188422 hasConcept C71039073 @default.
W3205188422 hasConcept C87976508 @default.
W3205188422 hasConcept C94293008 @default.
W3205188422 hasConceptScore W3205188422C107365816 @default.
W3205188422 hasConceptScore W3205188422C123157820 @default.
W3205188422 hasConceptScore W3205188422C127313418 @default.
W3205188422 hasConceptScore W3205188422C151730666 @default.
W3205188422 hasConceptScore W3205188422C159985019 @default.
W3205188422 hasConceptScore W3205188422C191897082 @default.
W3205188422 hasConceptScore W3205188422C192562407 @default.
W3205188422 hasConceptScore W3205188422C199631012 @default.
W3205188422 hasConceptScore W3205188422C2524010 @default.
W3205188422 hasConceptScore W3205188422C26771246 @default.
W3205188422 hasConceptScore W3205188422C2779472054 @default.
W3205188422 hasConceptScore W3205188422C33923547 @default.