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W2889310963 endingPage "402" @default.
W2889310963 startingPage "394" @default.
W2889310963 abstract "Ice formation causes numerous problems in many industrial fields as well as in our daily life. The control of ice nucleation and rational design of anti-icing surface with low ice adhesion are desirable in various industries such as aircraft, power line, ships, building, and cryopreservation. However, despite considerable attention in the development of ice or water-repellent surfaces, it is still challenging to design icephobic or anti-icing surfaces with high resistance to icing. In this study, coarse-grained molecular dynamics simulation is utilised to investigate the ice adhesion mechanism on lubricant-infused nanotextured surfaces. Using steered molecular dynamics simulation, we find that the adhesion strength of ice on nanotextured surfaces impregnated with lubricant films to be higher compared to that on textured surfaces in presence excess lubricant films. We illustrate that the ice adhesion strength depends on the texture density and the ice adhesion strength increases with nanoposts density. Lubricant-impregnated surfaces (LISs) with higher posts density exhibit greater adhesive interaction energy due to the large contact area between the icecube and the textured surface. This systematic study enhances our understanding of ice adhesion mechanism on LISs which can apply for designing novel anti-icing surfaces with extremely weak ice adhesion strength." @default.
W2889310963 created "2018-09-07" @default.
W2889310963 creator A5018170987 @default.
W2889310963 creator A5071427213 @default.
W2889310963 date "2018-08-26" @default.
W2889310963 modified "2023-09-23" @default.
W2889310963 title "Ice adhesion mechanism on lubricant-impregnated surfaces using molecular dynamics simulations" @default.
W2889310963 cites W1739621077 @default.
W2889310963 cites W1798839587 @default.
W2889310963 cites W1963738579 @default.
W2889310963 cites W1969725436 @default.
W2889310963 cites W1970123144 @default.
W2889310963 cites W197088469 @default.
W2889310963 cites W1973497554 @default.
W2889310963 cites W1975507694 @default.
W2889310963 cites W1976828803 @default.
W2889310963 cites W1978776039 @default.
W2889310963 cites W1981491832 @default.
W2889310963 cites W1983189968 @default.
W2889310963 cites W1984542011 @default.
W2889310963 cites W1985578377 @default.
W2889310963 cites W1986791114 @default.
W2889310963 cites W1988715261 @default.
W2889310963 cites W1997658930 @default.
W2889310963 cites W2000317483 @default.
W2889310963 cites W2003240840 @default.
W2889310963 cites W2004807109 @default.
W2889310963 cites W2004832076 @default.
W2889310963 cites W2006604929 @default.
W2889310963 cites W2012020990 @default.
W2889310963 cites W2015731624 @default.
W2889310963 cites W2018125145 @default.
W2889310963 cites W2019465613 @default.
W2889310963 cites W2026824306 @default.
W2889310963 cites W2027635187 @default.
W2889310963 cites W2030827488 @default.
W2889310963 cites W2034078233 @default.
W2889310963 cites W2035961559 @default.
W2889310963 cites W2044142670 @default.
W2889310963 cites W2044670534 @default.
W2889310963 cites W2045456459 @default.
W2889310963 cites W2051185647 @default.
W2889310963 cites W2051365363 @default.
W2889310963 cites W2051381895 @default.
W2889310963 cites W2052779216 @default.
W2889310963 cites W2054103452 @default.
W2889310963 cites W2054465370 @default.
W2889310963 cites W2056795175 @default.
W2889310963 cites W2059323964 @default.
W2889310963 cites W2060988205 @default.
W2889310963 cites W2074167486 @default.
W2889310963 cites W2075984407 @default.
W2889310963 cites W2078315409 @default.
W2889310963 cites W2100568642 @default.
W2889310963 cites W2102658404 @default.
W2889310963 cites W2103977241 @default.
W2889310963 cites W2111930609 @default.
W2889310963 cites W2112600715 @default.
W2889310963 cites W2112793330 @default.
W2889310963 cites W2122199548 @default.
W2889310963 cites W2137352412 @default.
W2889310963 cites W2138673434 @default.
W2889310963 cites W2142318989 @default.
W2889310963 cites W2144498947 @default.
W2889310963 cites W2149801992 @default.
W2889310963 cites W2161264820 @default.
W2889310963 cites W2161991565 @default.
W2889310963 cites W2182486513 @default.
W2889310963 cites W2306822792 @default.
W2889310963 cites W2313341540 @default.
W2889310963 cites W2322556674 @default.
W2889310963 cites W2322741475 @default.
W2889310963 cites W2326988875 @default.
W2889310963 cites W2327383586 @default.
W2889310963 cites W2328784199 @default.
W2889310963 cites W2328921281 @default.
W2889310963 cites W2331152200 @default.
W2889310963 cites W2332795837 @default.
W2889310963 cites W2333315212 @default.
W2889310963 cites W2346501625 @default.
W2889310963 cites W2462782700 @default.
W2889310963 cites W2543266884 @default.
W2889310963 cites W2551795353 @default.
W2889310963 cites W2581340384 @default.
W2889310963 cites W2591010584 @default.
W2889310963 cites W2618128081 @default.
W2889310963 cites W2775190055 @default.
W2889310963 cites W3100838739 @default.
W2889310963 cites W3102140724 @default.
W2889310963 cites W3150010985 @default.
W2889310963 cites W4240997581 @default.
W2889310963 cites W959091180 @default.
W2889310963 doi "https://doi.org/10.1080/08927022.2018.1513649" @default.
W2889310963 hasPublicationYear "2018" @default.
W2889310963 type Work @default.
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