SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3217177343> ?p ?o ?g. }

Showing items 1 to 100 of ±133 with 100 items per page.

W3217177343 endingPage "11106" @default.
W3217177343 startingPage "11106" @default.
W3217177343 abstract "Avoiding ice accumulation on aerodynamic components is of enormous importance to flight safety. Novel approaches utilizing surface dielectric barrier discharges (SDBDs) are expected to be more efficient and effective than conventional solutions for preventing ice accretion on aerodynamic components. In this work, the realization of SDBDs based on thin-film substrates by means of micro-electro-mechanical-systems (MEMS) technology is presented. The anti-icing performance of the MEMS SDBDs is presented and compared to SDBDs manufactured by printed circuit board (PCB) technology. It was observed that the 35 μm thick electrodes of the PCB SDBDs favor surface icing with an initial accumulation of supercooled water droplets at the electrode impact edges. This effect was not observed for 0.3 μm thick MEMS-fabricated electrodes indicating a clear advantage for MEMS-technology SDBDs for anti-icing applications. Titanium was identified as the most suitable material for MEMS electrodes. In addition, an optimization of the MEMS-SDBDs with respect to the dielectric materials as well as SDBD design is discussed." @default.
W3217177343 created "2021-12-06" @default.
W3217177343 creator A5011182372 @default.
W3217177343 creator A5011471911 @default.
W3217177343 creator A5014376385 @default.
W3217177343 creator A5015838839 @default.
W3217177343 creator A5024834367 @default.
W3217177343 creator A5053397340 @default.
W3217177343 creator A5055208730 @default.
W3217177343 creator A5056082980 @default.
W3217177343 creator A5062897177 @default.
W3217177343 creator A5071959429 @default.
W3217177343 creator A5077143420 @default.
W3217177343 creator A5087152535 @default.
W3217177343 date "2021-11-23" @default.
W3217177343 modified "2023-10-05" @default.
W3217177343 title "Icing Mitigation by MEMS-Fabricated Surface Dielectric Barrier Discharge" @default.
W3217177343 cites W1982816690 @default.
W3217177343 cites W2004073007 @default.
W3217177343 cites W2004925390 @default.
W3217177343 cites W2013577594 @default.
W3217177343 cites W2063070706 @default.
W3217177343 cites W2092117179 @default.
W3217177343 cites W2121907621 @default.
W3217177343 cites W2128788352 @default.
W3217177343 cites W2144109463 @default.
W3217177343 cites W2152056995 @default.
W3217177343 cites W2169587416 @default.
W3217177343 cites W217394023 @default.
W3217177343 cites W2469941562 @default.
W3217177343 cites W2549533765 @default.
W3217177343 cites W2733095676 @default.
W3217177343 cites W2750938078 @default.
W3217177343 cites W2788003827 @default.
W3217177343 cites W2798138443 @default.
W3217177343 cites W2803876923 @default.
W3217177343 cites W2809065769 @default.
W3217177343 cites W2896726161 @default.
W3217177343 cites W2901258374 @default.
W3217177343 cites W2909025447 @default.
W3217177343 cites W2914343901 @default.
W3217177343 cites W2914607732 @default.
W3217177343 cites W2922087652 @default.
W3217177343 cites W2938347058 @default.
W3217177343 cites W2949639186 @default.
W3217177343 cites W2974575594 @default.
W3217177343 cites W3015373573 @default.
W3217177343 cites W3028747386 @default.
W3217177343 cites W3044847477 @default.
W3217177343 cites W3045896018 @default.
W3217177343 cites W3082031476 @default.
W3217177343 cites W3094531853 @default.
W3217177343 cites W3096906279 @default.
W3217177343 cites W3118776594 @default.
W3217177343 cites W3134893122 @default.
W3217177343 cites W3137386075 @default.
W3217177343 cites W3162559161 @default.
W3217177343 cites W3166218280 @default.
W3217177343 doi "https://doi.org/10.3390/app112311106" @default.
W3217177343 hasPublicationYear "2021" @default.
W3217177343 type Work @default.
W3217177343 sameAs 3217177343 @default.
W3217177343 citedByCount "3" @default.
W3217177343 countsByYear W32171773432022 @default.
W3217177343 countsByYear W32171773432023 @default.
W3217177343 crossrefType "journal-article" @default.
W3217177343 hasAuthorship W3217177343A5011182372 @default.
W3217177343 hasAuthorship W3217177343A5011471911 @default.
W3217177343 hasAuthorship W3217177343A5014376385 @default.
W3217177343 hasAuthorship W3217177343A5015838839 @default.
W3217177343 hasAuthorship W3217177343A5024834367 @default.
W3217177343 hasAuthorship W3217177343A5053397340 @default.
W3217177343 hasAuthorship W3217177343A5055208730 @default.
W3217177343 hasAuthorship W3217177343A5056082980 @default.
W3217177343 hasAuthorship W3217177343A5062897177 @default.
W3217177343 hasAuthorship W3217177343A5071959429 @default.
W3217177343 hasAuthorship W3217177343A5077143420 @default.
W3217177343 hasAuthorship W3217177343A5087152535 @default.
W3217177343 hasBestOaLocation W32171773431 @default.
W3217177343 hasConcept C111368507 @default.
W3217177343 hasConcept C119599485 @default.
W3217177343 hasConcept C120793396 @default.
W3217177343 hasConcept C127313418 @default.
W3217177343 hasConcept C127413603 @default.
W3217177343 hasConcept C133386390 @default.
W3217177343 hasConcept C146978453 @default.
W3217177343 hasConcept C147789679 @default.
W3217177343 hasConcept C159985019 @default.
W3217177343 hasConcept C171250308 @default.
W3217177343 hasConcept C17525397 @default.
W3217177343 hasConcept C185592680 @default.
W3217177343 hasConcept C192562407 @default.
W3217177343 hasConcept C2781439067 @default.
W3217177343 hasConcept C37977207 @default.
W3217177343 hasConcept C49040817 @default.
W3217177343 hasConceptScore W3217177343C111368507 @default.
W3217177343 hasConceptScore W3217177343C119599485 @default.
W3217177343 hasConceptScore W3217177343C120793396 @default.