SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2023557796> ?p ?o ?g. }

Showing items 1 to 100 of ±254 with 100 items per page.

W2023557796 endingPage "566" @default.
W2023557796 startingPage "547" @default.
W2023557796 abstract "Abstract First-principle molecular dynamics (FPMD) calculations have been performed to evaluate the physical properties of liquid calcium carbonate (CaCO3), which are up to now poorly known. The liquid structure, the density, the atomic vibration motions, the diffusion coefficients of calcium and carbonate ions and the electrical conductivity have been evaluated. As compared with silicate melts, molten CaCO3 is characterized by a low density (∼2.25 g/cm3 at 1623 K and 0.5 GPa), a viscosity almost as low as that of water (∼5 mPa s), and a high conductivity (∼200 S/m). In using the FPMD calculations for benchmark, an empirical force field has been developed for predicting the properties of molten CaCO3 at any state point in the liquid stability field. This force field is implemented into a classical molecular dynamics (MD) code, much cheaper in computer time, and the equation of state and the phase diagram of the liquid phase have been obtained. The evolutions of the self diffusion coefficients, viscosity, and the electrical conductivity with pressure and temperature have been investigated and the results fitted with analytical forms. It is shown that the Stokes–Einstein equation, expressing the viscosity as a function of diffusion motion, is well followed, and that the Nernst–Einstein equation relating the electrical conductivity to the diffusion coefficients of charge carriers leads to an accurate prediction of the conductivity, provided that a constant correcting factor is applied. Consequently, viscosity and electrical conductivity of the liquid are found to be anticorrelated with each other and can be described by a simple law; λ = A/η0.9 (where A = 1.905, λ is in S/m, and η in Pa s)." @default.
W2023557796 created "2016-06-24" @default.
W2023557796 creator A5014294873 @default.
W2023557796 creator A5026989187 @default.
W2023557796 creator A5060343355 @default.
W2023557796 creator A5089818636 @default.
W2023557796 date "2014-09-01" @default.
W2023557796 modified "2023-09-30" @default.
W2023557796 title "Structure, equation of state and transport properties of molten calcium carbonate (CaCO3) by atomistic simulations" @default.
W2023557796 cites W1532991590 @default.
W2023557796 cites W15330166 @default.
W2023557796 cites W1585654991 @default.
W2023557796 cites W1820509481 @default.
W2023557796 cites W1917973071 @default.
W2023557796 cites W1933331491 @default.
W2023557796 cites W1965115120 @default.
W2023557796 cites W1965764022 @default.
W2023557796 cites W1966278336 @default.
W2023557796 cites W1966500342 @default.
W2023557796 cites W1968684170 @default.
W2023557796 cites W1968987095 @default.
W2023557796 cites W1972476450 @default.
W2023557796 cites W1974155894 @default.
W2023557796 cites W1974752382 @default.
W2023557796 cites W1978549119 @default.
W2023557796 cites W1979776674 @default.
W2023557796 cites W1980067615 @default.
W2023557796 cites W1980867667 @default.
W2023557796 cites W1981378138 @default.
W2023557796 cites W1981605443 @default.
W2023557796 cites W1981883491 @default.
W2023557796 cites W1982739504 @default.
W2023557796 cites W1982952953 @default.
W2023557796 cites W1985437660 @default.
W2023557796 cites W1986769668 @default.
W2023557796 cites W1987087106 @default.
W2023557796 cites W1987278031 @default.
W2023557796 cites W1988577050 @default.
W2023557796 cites W1988758547 @default.
W2023557796 cites W1989060947 @default.
W2023557796 cites W1992124068 @default.
W2023557796 cites W1992821870 @default.
W2023557796 cites W1993461691 @default.
W2023557796 cites W1995878469 @default.
W2023557796 cites W1998524463 @default.
W2023557796 cites W1998981716 @default.
W2023557796 cites W1999321494 @default.
W2023557796 cites W2000770615 @default.
W2023557796 cites W2001523684 @default.
W2023557796 cites W2001875090 @default.
W2023557796 cites W2002404280 @default.
W2023557796 cites W2002847139 @default.
W2023557796 cites W2005624911 @default.
W2023557796 cites W2005647481 @default.
W2023557796 cites W2006299863 @default.
W2023557796 cites W2011482531 @default.
W2023557796 cites W2011688946 @default.
W2023557796 cites W2013256566 @default.
W2023557796 cites W2013377412 @default.
W2023557796 cites W2013722136 @default.
W2023557796 cites W2013748814 @default.
W2023557796 cites W2014166972 @default.
W2023557796 cites W2014320809 @default.
W2023557796 cites W2015070822 @default.
W2023557796 cites W2015361267 @default.
W2023557796 cites W2016788894 @default.
W2023557796 cites W2017019577 @default.
W2023557796 cites W2017031918 @default.
W2023557796 cites W2017196167 @default.
W2023557796 cites W2017420294 @default.
W2023557796 cites W2018612157 @default.
W2023557796 cites W2021442664 @default.
W2023557796 cites W2021991639 @default.
W2023557796 cites W2023271753 @default.
W2023557796 cites W2023452425 @default.
W2023557796 cites W2024183067 @default.
W2023557796 cites W2025479080 @default.
W2023557796 cites W2026423508 @default.
W2023557796 cites W2026454326 @default.
W2023557796 cites W2026562834 @default.
W2023557796 cites W2026862001 @default.
W2023557796 cites W2028053168 @default.
W2023557796 cites W2031569899 @default.
W2023557796 cites W2031751752 @default.
W2023557796 cites W2032097573 @default.
W2023557796 cites W2033438647 @default.
W2023557796 cites W2033443500 @default.
W2023557796 cites W2035786208 @default.
W2023557796 cites W2037616576 @default.
W2023557796 cites W2038843945 @default.
W2023557796 cites W2039326681 @default.
W2023557796 cites W2039919643 @default.
W2023557796 cites W2040716987 @default.
W2023557796 cites W2040914784 @default.
W2023557796 cites W2041638382 @default.
W2023557796 cites W2041869469 @default.
W2023557796 cites W2042044855 @default.
W2023557796 cites W2042857616 @default.