FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2052091278> ?p ?o ?g. }

• W2052091278 abstract "A technique based on matching the refractive index of an invading liquid to that of a fiber mat was used to study entrapment of air ('voids') that occurs during forced in-plane radial flow into nonwoven multifilament glass networks. The usefulness of this technique is demonstrated in quantifying and mapping the air pockets. Experiments with a series of fluids with surface tensions varying from 28 x 10(exp -3) to 36 x 10(exp -3) N/m, viscosities from 45 x 10(exp -3) to 290 x 10(exp -3) Pa.s, and inlet flow rates from 0.15 x 10(exp -6) to 0.75 x 10(exp -6) m(exp 3)/s, showed that void content is a function of the capillary number characterizing the flow process. A critical value of capillary number, Ca = 2.5 x 10(exp -3), identifies a zone below which void content increases exponentially with decreasing capillary number. Above this critical value, negligible entrapment of voids is observed. Similar experiments carried out on surface treated nonwoven mats spanning a range of equilibrium contact angles from 20 deg to 78 deg showed that there is a critical contact angle above which negligible entrapment is observed. Below this value, there is no apparent effect of contact angle on the void fraction - capillary number relationship described earlier. Studies on the effect of filament wettability, and fluid velocity and viscosity on the size of the entrapment (voids) were also carried out. These indicate that larger sized entrapments which envelop more than one pore are favored by a low capillary number in comparison to smaller, pore level bubbles. Experiments were carried out on deformed mats - imposing high permeability spots at regular intervals on a background of low permeability. The effect of these spatial fluctuations in heterogeneity of the mat on entrapment is currently being studied." @default.
• W2052091278 created "2016-06-24" @default.
• W2052091278 creator A5019764260 @default.
• W2052091278 creator A5049966824 @default.
• W2052091278 creator A5066756608 @default.
• W2052091278 date "1993-12-01" @default.
• W2052091278 modified "2023-10-14" @default.
• W2052091278 title "Characterization of voids formed during liquid impregnation of non-woven multifilament glass networks as related to composite processing" @default.
• W2052091278 cites W1970355558 @default.
• W2052091278 cites W1992325891 @default.
• W2052091278 cites W2010310713 @default.
• W2052091278 cites W2037673983 @default.
• W2052091278 cites W2076547669 @default.
• W2052091278 cites W2085785691 @default.
• W2052091278 cites W2170290628 @default.
• W2052091278 doi "https://doi.org/10.1016/0956-7143(93)90005-s" @default.
• W2052091278 hasPublicationYear "1993" @default.
• W2052091278 type Work @default.
• W2052091278 sameAs 2052091278 @default.
• W2052091278 citedByCount "13" @default.
• W2052091278 countsByYear W20520912782018 @default.
• W2052091278 countsByYear W20520912782019 @default.
• W2052091278 countsByYear W20520912782021 @default.
• W2052091278 crossrefType "journal-article" @default.
• W2052091278 hasAuthorship W2052091278A5019764260 @default.
• W2052091278 hasAuthorship W2052091278A5049966824 @default.
• W2052091278 hasAuthorship W2052091278A5066756608 @default.
• W2052091278 hasBestOaLocation W20520912782 @default.
• W2052091278 hasConcept C104779481 @default.
• W2052091278 hasConcept C127172972 @default.
• W2052091278 hasConcept C134514944 @default.
• W2052091278 hasConcept C159985019 @default.
• W2052091278 hasConcept C192562407 @default.
• W2052091278 hasConcept C196806460 @default.
• W2052091278 hasConcept C200990466 @default.
• W2052091278 hasConcept C2777297030 @default.
• W2052091278 hasConcept C2779772531 @default.
• W2052091278 hasConcept C28413391 @default.
• W2052091278 hasConcept C6556556 @default.
• W2052091278 hasConceptScore W2052091278C104779481 @default.
• W2052091278 hasConceptScore W2052091278C127172972 @default.
• W2052091278 hasConceptScore W2052091278C134514944 @default.
• W2052091278 hasConceptScore W2052091278C159985019 @default.
• W2052091278 hasConceptScore W2052091278C192562407 @default.
• W2052091278 hasConceptScore W2052091278C196806460 @default.
• W2052091278 hasConceptScore W2052091278C200990466 @default.
• W2052091278 hasConceptScore W2052091278C2777297030 @default.
• W2052091278 hasConceptScore W2052091278C2779772531 @default.
• W2052091278 hasConceptScore W2052091278C28413391 @default.
• W2052091278 hasConceptScore W2052091278C6556556 @default.
• W2052091278 hasLocation W20520912781 @default.
• W2052091278 hasLocation W20520912782 @default.
• W2052091278 hasOpenAccess W2052091278 @default.
• W2052091278 hasPrimaryLocation W20520912781 @default.
• W2052091278 hasRelatedWork W1038600879 @default.
• W2052091278 hasRelatedWork W1977361859 @default.
• W2052091278 hasRelatedWork W2011292902 @default.
• W2052091278 hasRelatedWork W2017890773 @default.
• W2052091278 hasRelatedWork W2023647791 @default.
• W2052091278 hasRelatedWork W2025626091 @default.
• W2052091278 hasRelatedWork W2030132613 @default.
• W2052091278 hasRelatedWork W2053052034 @default.
• W2052091278 hasRelatedWork W2081737188 @default.
• W2052091278 hasRelatedWork W2092674657 @default.
• W2052091278 hasRelatedWork W2121286178 @default.
• W2052091278 hasRelatedWork W2135240643 @default.
• W2052091278 hasRelatedWork W2146323518 @default.
• W2052091278 hasRelatedWork W2179982194 @default.
• W2052091278 hasRelatedWork W2602900605 @default.
• W2052091278 hasRelatedWork W2785484361 @default.
• W2052091278 hasRelatedWork W2789439380 @default.
• W2052091278 hasRelatedWork W3047312842 @default.
• W2052091278 hasRelatedWork W3102644811 @default.
• W2052091278 hasRelatedWork W3200658547 @default.
• W2052091278 isParatext "false" @default.
• W2052091278 isRetracted "false" @default.
• W2052091278 magId "2052091278" @default.
• W2052091278 workType "article" @default.