SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4387619036> ?p ?o ?g. }

Showing items 1 to 100 of ±156 with 100 items per page.

W4387619036 endingPage "108824" @default.
W4387619036 startingPage "108824" @default.
W4387619036 abstract "Functional solid surfaces that can realise rapid shedding of liquid droplets have received significant research interest due to their close relevance to many industrial applications. Droplet impact on superhydrophobic surfaces with point-like protrusions has been demonstrated to take off as rings, which alters droplet impact dynamics and thus reduces contact time compared to flat surfaces. However, the essential role of the size ratio of protrusion-to-droplet (λ) for droplets impinging on such surface is rarely considered. Here, we numerically investigate droplet impact on superhydrophobic surfaces with convex hemispherical shapes using a phase-field model coupled with dynamic contact angles. The postimpact outcome regimes occurring for varied λ and Weber number (We) values, spanning 0 ≤ λ ≤ 1.44 and 0.69 ≤ We ≤ 33.68, are mapped on a We−λ diagram. Three distinct dynamic behaviours of droplet impact are identified: contactless bouncing, conventional bouncing, and ring bouncing. Detailed comparative analyses of these impact outcomes are also presented, including the evolution of droplet morphology, impact force, maximum impact pressure, pressure distribution, and velocity vector distribution. The results reveal a previously unknown phenomenon in contactless bouncing, where the impact force exhibits an initial increase followed by a subsequent decrease, while the maximum impact pressure remains approximately constant. Annular rotating retraction results in a longer contact time. Breakup occurs near the necked area, inducing a part of the droplet to depart from the surface as a jet. In addition, it is observed that the dimensionless maximum wetting area becomes independent of the λ and follows a scaling law of 0.67We3/5 if the We exceeds 2.75. Ring bouncing exclusively occurs within the range of 0.24 ≤ λ ≤ 0.96 and We ≥ 24.74, resulting in an approximate 50% reduction in non-dimensional contact time compared to conventional bouncing. These findings favour the understanding of the underlying mechanisms governing droplet impact and thereby provide available guidance to the design of superhydrophobic surfaces." @default.
W4387619036 created "2023-10-14" @default.
W4387619036 creator A5012911926 @default.
W4387619036 creator A5016826197 @default.
W4387619036 creator A5038313069 @default.
W4387619036 creator A5048603565 @default.
W4387619036 creator A5054603226 @default.
W4387619036 creator A5061671556 @default.
W4387619036 date "2023-10-01" @default.
W4387619036 modified "2023-10-18" @default.
W4387619036 title "Droplet impact dynamics on superhydrophobic surfaces with convex hemispherical shapes" @default.
W4387619036 cites W1662359706 @default.
W4387619036 cites W1923848359 @default.
W4387619036 cites W1936948613 @default.
W4387619036 cites W1985829269 @default.
W4387619036 cites W1986235698 @default.
W4387619036 cites W1991339697 @default.
W4387619036 cites W1995048264 @default.
W4387619036 cites W1998426637 @default.
W4387619036 cites W1999710482 @default.
W4387619036 cites W2004807109 @default.
W4387619036 cites W2011581798 @default.
W4387619036 cites W2012868270 @default.
W4387619036 cites W2024832882 @default.
W4387619036 cites W2024948648 @default.
W4387619036 cites W2025763583 @default.
W4387619036 cites W2070065285 @default.
W4387619036 cites W2074380111 @default.
W4387619036 cites W2082621236 @default.
W4387619036 cites W2088243004 @default.
W4387619036 cites W2106836699 @default.
W4387619036 cites W2119845238 @default.
W4387619036 cites W2137628728 @default.
W4387619036 cites W2148477779 @default.
W4387619036 cites W2152848494 @default.
W4387619036 cites W2155676216 @default.
W4387619036 cites W2160057341 @default.
W4387619036 cites W2227083838 @default.
W4387619036 cites W2280560624 @default.
W4387619036 cites W2326512569 @default.
W4387619036 cites W2515678190 @default.
W4387619036 cites W2523815733 @default.
W4387619036 cites W2569718672 @default.
W4387619036 cites W2780842221 @default.
W4387619036 cites W2783419074 @default.
W4387619036 cites W2787815467 @default.
W4387619036 cites W2789708639 @default.
W4387619036 cites W2797309908 @default.
W4387619036 cites W2800186610 @default.
W4387619036 cites W2810321265 @default.
W4387619036 cites W2888768243 @default.
W4387619036 cites W2903774319 @default.
W4387619036 cites W2946709200 @default.
W4387619036 cites W2953137765 @default.
W4387619036 cites W2970922423 @default.
W4387619036 cites W2983794242 @default.
W4387619036 cites W2994427647 @default.
W4387619036 cites W3037218864 @default.
W4387619036 cites W3092982177 @default.
W4387619036 cites W3095087861 @default.
W4387619036 cites W3095571806 @default.
W4387619036 cites W3096569262 @default.
W4387619036 cites W3127284121 @default.
W4387619036 cites W3153488254 @default.
W4387619036 cites W3159961342 @default.
W4387619036 cites W3164136333 @default.
W4387619036 cites W3186108214 @default.
W4387619036 cites W3191730165 @default.
W4387619036 cites W3202869428 @default.
W4387619036 cites W3203850446 @default.
W4387619036 cites W3207504787 @default.
W4387619036 cites W3213158674 @default.
W4387619036 cites W3214566693 @default.
W4387619036 cites W4200496697 @default.
W4387619036 cites W4206950353 @default.
W4387619036 cites W4225910227 @default.
W4387619036 cites W4237303055 @default.
W4387619036 cites W4281619653 @default.
W4387619036 cites W4283398376 @default.
W4387619036 cites W4286438910 @default.
W4387619036 cites W4297145375 @default.
W4387619036 cites W4300688476 @default.
W4387619036 cites W4309768311 @default.
W4387619036 cites W4309777560 @default.
W4387619036 cites W4312203712 @default.
W4387619036 cites W4366382687 @default.
W4387619036 doi "https://doi.org/10.1016/j.ijmecsci.2023.108824" @default.
W4387619036 hasPublicationYear "2023" @default.
W4387619036 type Work @default.
W4387619036 citedByCount "0" @default.
W4387619036 crossrefType "journal-article" @default.
W4387619036 hasAuthorship W4387619036A5012911926 @default.
W4387619036 hasAuthorship W4387619036A5016826197 @default.
W4387619036 hasAuthorship W4387619036A5038313069 @default.
W4387619036 hasAuthorship W4387619036A5048603565 @default.
W4387619036 hasAuthorship W4387619036A5054603226 @default.
W4387619036 hasAuthorship W4387619036A5061671556 @default.
W4387619036 hasConcept C112680207 @default.