A New Model of the Excess Gibbs Energy of Mixing for a Regular Solution.
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概要
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The excess Gibbs energy of mixing for a regular solution can be derived systematically by defining the interaction energy for particle groups composed of closest neighbors at equivalent site. The internal energy of a system is regarded as the sum of the interaction energy for particle groups and the excess function is derived from the sum of the interaction energy change caused by the formations of particle groups. In the present paper, we have derived the excess Gibbs energy of mixing for ternary and quaternary regular solutions with a closest packing. For a ternary regular solution, the molar excess Gibbs energy of mixing is given as follows, Gex=XAXB(XAWAAB+XBWABB)+XBXC (XBWBBC+XCWBCC) +XCXA(XCWCCA+XAWCAA)+2XAXBXCWABC, where Xi is a mole fraction of the component i and Wijk is an interaction parameter of [ijk] triplet. The following expressions for n-component systems are derived by the similar method by supposing interaction energy among r particles. Some previously proposed models can be derived from our model. n=2, r=2: Gex=XAXBWAB (symmetric binary regular solution model) n=2, r=3: Gex=XAXB(XAWAAB+XBWABB)(asymmetvie binary regular solution model) n=3, r=2: Gex=XAXBWAB+XBXCWBC+XCXAWCA (symmetric ternary regular solution model) n=3, r=3: Gex=XAXB(XAWAAB+XBWABB)+XBXC(XBWBBC+XCWBCC) +XCXA(XCWCCA+XAWCAA)+2XAXBXCWABC (new ternary model: stated above) n=4, r=4: Gex=XA3XBWAAAB+XB3XAWBBBA+XA3XCWAAAC+XC3XAWCCCA +XA3XDWAAAD+XD3XAWDDDA+XB3XCWBBBC+XC3XBWCCCB +XB3XDWBBBD+XD3XBWDDDB+XC3XDWCCCD+XD3XCWDDDC +3/2XA2XB2WAABB+3/2XA2XC2WAACC+3/2XA2XD2WAADD +3/2XB2XC2WBBCC+3/2XB2XD2WBBDD+3/2XC2XD2WCCDD +3XA2XBXCWAABC+3XA2XBXDWAABD+3XA2XCXDWAACD +3XB2XAXCWBBAC+3XB2XAXDWBBAD+3XB2XCXDWBBCD +3XC2XAXBWCCAB+3XC2XAXDWCCAD+3XC2XBXDWCCBD +3XD2XAXB⊗WDDAB+3XD2XAXCWDDAC+3XD2XBXCWDDBC +6XAXBXCXDWABCD.
- 日本学士院の論文
著者
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Uchida Etsuo
Department Of Mineral Resources Engineering Waseda University
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Imai Naoya
Department Of Mineral Industry School Of Science And Engineering ; Science And Engineering Research
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IMAI Naoya
Department of Mineral Resources Engineering, Waseda University
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KAKUDA Yasushi
Department of Mineral Resources Engineering, Waseda University
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