SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4308285445> ?p ?o ?g. }

Showing items 1 to 100 of ±134 with 100 items per page.

W4308285445 endingPage "123570" @default.
W4308285445 startingPage "123570" @default.
W4308285445 abstract "• The size-dependent thermoelastic damping of a circular microplate is determined. • Fractional dual-phase-lag (DPL) incorporating the couple stress theory is put forward. • An analytical expression for thermoelastic damping of a circular microplate is given. • Effects of the fractional order, relaxation time, and characteristic length on the inverse quality factor are analyzed. In the present work, thermoelastic damping in a micro-resonator operating in vacuum as a vibrating size-dependent circular thin plate is studied. To better describe the heat conduction process, a generalized thermoelasticity theory of fractional dual-phase-lag (DPL) incorporating the couple stress theory is put forward to capture the experimentally observed small-scale effect of thermoelastic dissipation. The complex frequency of the micro-plate is obtained through Laplace transform technique. Finally, Lifshitz and Roukes’s complex frequency method is employed to derive an analytical expression for thermoelastic damping. The influences of the parameters including fractional order, phase-lag time, and internal characteristic length on the inverse quality factor Q − 1 are analyzed. The obtained results show that the influences of these parameters on thermoelastic damping are pronounced. These results are helpful to the design of micro-/nano-resonators with high-performance." @default.
W4308285445 created "2022-11-10" @default.
W4308285445 creator A5038975418 @default.
W4308285445 creator A5063354762 @default.
W4308285445 creator A5073155292 @default.
W4308285445 creator A5077801205 @default.
W4308285445 date "2023-02-01" @default.
W4308285445 modified "2023-10-12" @default.
W4308285445 title "Thermoelastic damping in circular microplate resonators based on fractional dual-phase-lag model and couple stress theory" @default.
W4308285445 cites W1965135771 @default.
W4308285445 cites W1966330485 @default.
W4308285445 cites W1970468891 @default.
W4308285445 cites W1971640901 @default.
W4308285445 cites W1971962744 @default.
W4308285445 cites W1974427030 @default.
W4308285445 cites W1977601222 @default.
W4308285445 cites W1998494366 @default.
W4308285445 cites W2003683509 @default.
W4308285445 cites W2007362377 @default.
W4308285445 cites W2011113198 @default.
W4308285445 cites W2024907888 @default.
W4308285445 cites W2032977237 @default.
W4308285445 cites W2035312570 @default.
W4308285445 cites W2045260724 @default.
W4308285445 cites W2053783507 @default.
W4308285445 cites W2056922185 @default.
W4308285445 cites W2067507147 @default.
W4308285445 cites W2070450020 @default.
W4308285445 cites W2073091891 @default.
W4308285445 cites W2078657453 @default.
W4308285445 cites W2088445953 @default.
W4308285445 cites W2088990151 @default.
W4308285445 cites W2090384543 @default.
W4308285445 cites W2091458120 @default.
W4308285445 cites W2122604253 @default.
W4308285445 cites W2131760887 @default.
W4308285445 cites W2138425920 @default.
W4308285445 cites W2160388314 @default.
W4308285445 cites W2164575295 @default.
W4308285445 cites W2273502711 @default.
W4308285445 cites W2536137653 @default.
W4308285445 cites W2754311053 @default.
W4308285445 cites W2755537162 @default.
W4308285445 cites W2758048515 @default.
W4308285445 cites W2884865781 @default.
W4308285445 cites W2930571714 @default.
W4308285445 cites W2942234747 @default.
W4308285445 cites W2969683270 @default.
W4308285445 cites W2978655398 @default.
W4308285445 cites W2990242235 @default.
W4308285445 cites W3037333154 @default.
W4308285445 cites W3115016723 @default.
W4308285445 cites W3134826453 @default.
W4308285445 cites W3190237633 @default.
W4308285445 cites W3197006092 @default.
W4308285445 cites W3198388295 @default.
W4308285445 cites W3207063955 @default.
W4308285445 cites W3207876047 @default.
W4308285445 cites W4281968085 @default.
W4308285445 cites W4286483969 @default.
W4308285445 doi "https://doi.org/10.1016/j.ijheatmasstransfer.2022.123570" @default.
W4308285445 hasPublicationYear "2023" @default.
W4308285445 type Work @default.
W4308285445 citedByCount "8" @default.
W4308285445 countsByYear W43082854452023 @default.
W4308285445 crossrefType "journal-article" @default.
W4308285445 hasAuthorship W4308285445A5038975418 @default.
W4308285445 hasAuthorship W4308285445A5063354762 @default.
W4308285445 hasAuthorship W4308285445A5073155292 @default.
W4308285445 hasAuthorship W4308285445A5077801205 @default.
W4308285445 hasConcept C120665830 @default.
W4308285445 hasConcept C121332964 @default.
W4308285445 hasConcept C124952713 @default.
W4308285445 hasConcept C134306372 @default.
W4308285445 hasConcept C138885662 @default.
W4308285445 hasConcept C142362112 @default.
W4308285445 hasConcept C192562407 @default.
W4308285445 hasConcept C204530211 @default.
W4308285445 hasConcept C21036866 @default.
W4308285445 hasConcept C2780980858 @default.
W4308285445 hasConcept C2983665814 @default.
W4308285445 hasConcept C31258907 @default.
W4308285445 hasConcept C33923547 @default.
W4308285445 hasConcept C41008148 @default.
W4308285445 hasConcept C41895202 @default.
W4308285445 hasConcept C44280652 @default.
W4308285445 hasConcept C57879066 @default.
W4308285445 hasConcept C62520636 @default.
W4308285445 hasConcept C75778745 @default.
W4308285445 hasConcept C92458943 @default.
W4308285445 hasConcept C97126364 @default.
W4308285445 hasConcept C97355855 @default.
W4308285445 hasConceptScore W4308285445C120665830 @default.
W4308285445 hasConceptScore W4308285445C121332964 @default.
W4308285445 hasConceptScore W4308285445C124952713 @default.
W4308285445 hasConceptScore W4308285445C134306372 @default.
W4308285445 hasConceptScore W4308285445C138885662 @default.
W4308285445 hasConceptScore W4308285445C142362112 @default.