FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3195586264> ?p ?o ?g. }

• W3195586264 endingPage "1943" @default.
• W3195586264 startingPage "1911" @default.
• W3195586264 abstract "Purpose The purpose of this paper is to study the propagation of inhomogeneous waves in a partially saturated poro-thermoelastic media through the examples of the free surface of such media.. Design/methodology/approach The mathematical model evolved by Zhou et al. (2019) is solved through the Helmholtz decomposition theorem. The propagation velocities of bulk waves in partially saturated poro-thermoelastic media are derived by using the potential functions. The phase velocities and attenuation coefficients are expressed in terms of inhomogeneity angle. Reflection characteristics (phase shift, loci of vertical slowness, amplitude, energy) of elastic waves are investigated at the stress-free thermally insulated boundary of a considered medium. The boundary can be permeable or impermeable. The incident wave is portrayed with both attenuation and propagation directions (i.e. inhomogeneous wave). Numerical computations are executed by using MATLAB. Findings In this medium, the permanence of five inhomogeneous waves is found. Incidence of the inhomogeneous wave at the thermally insulated stress-free surface results in five reflected inhomogeneous waves in a partially saturated poro-thermoelastic media. The reflection coefficients and splitting of incident energy are obtained as a function of propagation direction, inhomogeneity angle, wave frequency and numerous thermophysical features of the partially saturated poro-thermoelastic media. The energy of distinct waves (incident wave, reflected waves) accompanying interference energies between distinct pairs of waves have been exhibited in the form of an energy matrix. Originality/value The sensitivity of propagation characteristics (velocity, attenuation, phase shift, loci of vertical slowness, energy) to numerous aspects of the physical model is analyzed graphically through a particular numerical example. The balance of energy is substantiated by virtue of the interaction energies at the thermally insulated stress-free surface (opened/sealed pores) of unsaturated poro-thermoelastic media through the bulk waves energy shares and interaction energy." @default.
• W3195586264 created "2021-08-30" @default.
• W3195586264 creator A5021644596 @default.
• W3195586264 creator A5022899503 @default.
• W3195586264 creator A5050204641 @default.
• W3195586264 creator A5054717919 @default.
• W3195586264 creator A5059281779 @default.
• W3195586264 date "2021-09-05" @default.
• W3195586264 modified "2023-09-25" @default.
• W3195586264 title "Inhomogeneous wave reflection from the surface of a partially saturated thermoelastic porous media" @default.
• W3195586264 cites W1537061404 @default.
• W3195586264 cites W1711951635 @default.
• W3195586264 cites W1972523397 @default.
• W3195586264 cites W1973038067 @default.
• W3195586264 cites W1982430104 @default.
• W3195586264 cites W1988676568 @default.
• W3195586264 cites W1992129847 @default.
• W3195586264 cites W1999316225 @default.
• W3195586264 cites W2000761434 @default.
• W3195586264 cites W2001926722 @default.
• W3195586264 cites W2020258752 @default.
• W3195586264 cites W2026153375 @default.
• W3195586264 cites W2033519965 @default.
• W3195586264 cites W2056907370 @default.
• W3195586264 cites W2073460887 @default.
• W3195586264 cites W2085521187 @default.
• W3195586264 cites W2089430587 @default.
• W3195586264 cites W2098796545 @default.
• W3195586264 cites W2145142028 @default.
• W3195586264 cites W2162871601 @default.
• W3195586264 cites W2312338693 @default.
• W3195586264 cites W2345190469 @default.
• W3195586264 cites W2749590332 @default.
• W3195586264 cites W2765440842 @default.
• W3195586264 cites W2883643346 @default.
• W3195586264 cites W2897333506 @default.
• W3195586264 cites W2949596587 @default.
• W3195586264 cites W2955927980 @default.
• W3195586264 cites W2963363279 @default.
• W3195586264 cites W3001684932 @default.
• W3195586264 cites W3008279376 @default.
• W3195586264 cites W3023291508 @default.
• W3195586264 cites W3032935788 @default.
• W3195586264 cites W3042537352 @default.
• W3195586264 cites W3130243820 @default.
• W3195586264 cites W4230822328 @default.
• W3195586264 cites W4253538687 @default.
• W3195586264 doi "https://doi.org/10.1108/hff-04-2021-0279" @default.
• W3195586264 hasPublicationYear "2021" @default.
• W3195586264 type Work @default.
• W3195586264 sameAs 3195586264 @default.
• W3195586264 citedByCount "5" @default.
• W3195586264 countsByYear W31955862642022 @default.
• W3195586264 countsByYear W31955862642023 @default.
• W3195586264 crossrefType "journal-article" @default.
• W3195586264 hasAuthorship W3195586264A5021644596 @default.
• W3195586264 hasAuthorship W3195586264A5022899503 @default.
• W3195586264 hasAuthorship W3195586264A5050204641 @default.
• W3195586264 hasAuthorship W3195586264A5054717919 @default.
• W3195586264 hasAuthorship W3195586264A5059281779 @default.
• W3195586264 hasConcept C105569014 @default.
• W3195586264 hasConcept C11940443 @default.
• W3195586264 hasConcept C120665830 @default.
• W3195586264 hasConcept C121332964 @default.
• W3195586264 hasConcept C143351421 @default.
• W3195586264 hasConcept C159985019 @default.
• W3195586264 hasConcept C181965411 @default.
• W3195586264 hasConcept C184652730 @default.
• W3195586264 hasConcept C192562407 @default.
• W3195586264 hasConcept C199360897 @default.
• W3195586264 hasConcept C204530211 @default.
• W3195586264 hasConcept C26682833 @default.
• W3195586264 hasConcept C41008148 @default.
• W3195586264 hasConcept C43179477 @default.
• W3195586264 hasConcept C44280652 @default.
• W3195586264 hasConcept C44886760 @default.
• W3195586264 hasConcept C57879066 @default.
• W3195586264 hasConcept C62520636 @default.
• W3195586264 hasConcept C65682993 @default.
• W3195586264 hasConcept C6648577 @default.
• W3195586264 hasConcept C84174578 @default.
• W3195586264 hasConcept C92458943 @default.
• W3195586264 hasConcept C97355855 @default.
• W3195586264 hasConceptScore W3195586264C105569014 @default.
• W3195586264 hasConceptScore W3195586264C11940443 @default.
• W3195586264 hasConceptScore W3195586264C120665830 @default.
• W3195586264 hasConceptScore W3195586264C121332964 @default.
• W3195586264 hasConceptScore W3195586264C143351421 @default.
• W3195586264 hasConceptScore W3195586264C159985019 @default.
• W3195586264 hasConceptScore W3195586264C181965411 @default.
• W3195586264 hasConceptScore W3195586264C184652730 @default.
• W3195586264 hasConceptScore W3195586264C192562407 @default.
• W3195586264 hasConceptScore W3195586264C199360897 @default.
• W3195586264 hasConceptScore W3195586264C204530211 @default.
• W3195586264 hasConceptScore W3195586264C26682833 @default.
• W3195586264 hasConceptScore W3195586264C41008148 @default.
• W3195586264 hasConceptScore W3195586264C43179477 @default.
• W3195586264 hasConceptScore W3195586264C44280652 @default.

• next