SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3157191510> ?p ?o ?g. }

Showing items 1 to 100 of ±156 with 100 items per page.

W3157191510 endingPage "3279" @default.
W3157191510 startingPage "3266" @default.
W3157191510 abstract "This article showcases a systematic and generalized phase-field modeling approach for addressing the phenomenon of faceted crystal dissolution in different crystalline solids, in two and three dimensions. A thermodynamically consistent phase-field model was adapted to account for anisotropies in the surface energy and kinetic mobility associated with the crystal surface that evolves during dissolution. Two significant and novel aspects of this work are: (I) the proposed general prescription of anisotropy parameters and (II) quantitative process simulation, within the phase-field modeling framework. The prescription allows us to simulate dissolution in different crystal–liquid systems, where the crystal may exhibit arbitrary growth and dissolution facets. Moreover, the order of precedence and relative velocities of facets can be precisely controlled. To demonstrate the procedure of quantitative modeling, we considered the system of α-quartz in silica-undersaturated solution under the physical conditions from previous experiments and determined other input model parameters from the existing literature. Further, the missing anisotropy parameters were retrieved based on simulations of dissolving single crystals. Following the proposed prescription and the procedure of parameter-set generation, dissolution processes in other crystal–liquid systems under different physical conditions can be modeled. The general applicability, capabilities, and performance of this model in capturing diverse system-specific dissolution behavior are demonstrated through representative numerical examples." @default.
W3157191510 created "2021-05-10" @default.
W3157191510 creator A5017543366 @default.
W3157191510 creator A5020579663 @default.
W3157191510 creator A5035552974 @default.
W3157191510 creator A5037815782 @default.
W3157191510 creator A5053339027 @default.
W3157191510 date "2021-05-04" @default.
W3157191510 modified "2023-09-27" @default.
W3157191510 title "Quantitative Phase-Field Modeling of Faceted Crystal Dissolution Processes" @default.
W3157191510 cites W1554772128 @default.
W3157191510 cites W1860551146 @default.
W3157191510 cites W1965996883 @default.
W3157191510 cites W1966499738 @default.
W3157191510 cites W1979530627 @default.
W3157191510 cites W1980501394 @default.
W3157191510 cites W1982487180 @default.
W3157191510 cites W1989244505 @default.
W3157191510 cites W1990250430 @default.
W3157191510 cites W1991113069 @default.
W3157191510 cites W1999515131 @default.
W3157191510 cites W2001176165 @default.
W3157191510 cites W2014756735 @default.
W3157191510 cites W2016008587 @default.
W3157191510 cites W2020245578 @default.
W3157191510 cites W2021289416 @default.
W3157191510 cites W2022321851 @default.
W3157191510 cites W2036564595 @default.
W3157191510 cites W2051658298 @default.
W3157191510 cites W2052762538 @default.
W3157191510 cites W2052777658 @default.
W3157191510 cites W2053251618 @default.
W3157191510 cites W2055486715 @default.
W3157191510 cites W2057389989 @default.
W3157191510 cites W2062495931 @default.
W3157191510 cites W2062899794 @default.
W3157191510 cites W2064459234 @default.
W3157191510 cites W2067608390 @default.
W3157191510 cites W2069773493 @default.
W3157191510 cites W2070602906 @default.
W3157191510 cites W2071331706 @default.
W3157191510 cites W2076212313 @default.
W3157191510 cites W2077664513 @default.
W3157191510 cites W2077948890 @default.
W3157191510 cites W2079878814 @default.
W3157191510 cites W2097880825 @default.
W3157191510 cites W2097973750 @default.
W3157191510 cites W2098727049 @default.
W3157191510 cites W2099679361 @default.
W3157191510 cites W2107436920 @default.
W3157191510 cites W2116182190 @default.
W3157191510 cites W2130347844 @default.
W3157191510 cites W2136971588 @default.
W3157191510 cites W2144396860 @default.
W3157191510 cites W2152001223 @default.
W3157191510 cites W2152439958 @default.
W3157191510 cites W2162211801 @default.
W3157191510 cites W2163541993 @default.
W3157191510 cites W2168889067 @default.
W3157191510 cites W2178893872 @default.
W3157191510 cites W2259926335 @default.
W3157191510 cites W2324536746 @default.
W3157191510 cites W2619558254 @default.
W3157191510 cites W2744672763 @default.
W3157191510 cites W2793512120 @default.
W3157191510 cites W2806848334 @default.
W3157191510 cites W2868107731 @default.
W3157191510 cites W2887119738 @default.
W3157191510 cites W2891985860 @default.
W3157191510 cites W2928319601 @default.
W3157191510 cites W2938811970 @default.
W3157191510 cites W2969604551 @default.
W3157191510 cites W3004040821 @default.
W3157191510 cites W3035492916 @default.
W3157191510 cites W3036434341 @default.
W3157191510 cites W3093447591 @default.
W3157191510 cites W3099125639 @default.
W3157191510 cites W3103344815 @default.
W3157191510 cites W3126481757 @default.
W3157191510 cites W3157191510 @default.
W3157191510 cites W4232971805 @default.
W3157191510 cites W4255512594 @default.
W3157191510 cites W862538217 @default.
W3157191510 doi "https://doi.org/10.1021/acs.cgd.0c01715" @default.
W3157191510 hasPublicationYear "2021" @default.
W3157191510 type Work @default.
W3157191510 sameAs 3157191510 @default.
W3157191510 citedByCount "9" @default.
W3157191510 countsByYear W31571915102021 @default.
W3157191510 countsByYear W31571915102022 @default.
W3157191510 countsByYear W31571915102023 @default.
W3157191510 crossrefType "journal-article" @default.
W3157191510 hasAuthorship W3157191510A5017543366 @default.
W3157191510 hasAuthorship W3157191510A5020579663 @default.
W3157191510 hasAuthorship W3157191510A5035552974 @default.
W3157191510 hasAuthorship W3157191510A5037815782 @default.
W3157191510 hasAuthorship W3157191510A5053339027 @default.
W3157191510 hasConcept C120665830 @default.