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      SCOPUS KCI등재

      액 - 액 분산계의 상대점도에 관한 연구 = Studies on the Relative Viscosities of Liquid - Liquid Dispersion systems

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      https://www.riss.kr/link?id=A3089877

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      The relative viscosity of dispersion was investigated focussing the attention on the drop size distribution as well as the volume concentration of the dispersed phase: μ_r=exp [AΦ_t + BΦ_t²] where φis the volume concentration of the dispersed phase; A and B are functions of drop size distribution of the dispersed phase and viscosities of the continuous and the dispersed phases. In order to validate the proposed model, published data were applied to the model and were compared with calculated results. The errors between experimental viscosities and calculated values ranged from 0% to 3.86% depending on the materials of dispersions. Also the same model has been applied to the emulsion system. Predicted viscosities of emulsions by the model agreed with experimental data reasonably well giving a maximum error of 4.1%.
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      The relative viscosity of dispersion was investigated focussing the attention on the drop size distribution as well as the volume concentration of the dispersed phase: μ_r=exp [AΦ_t + BΦ_t²] where φis the volume concentration of the dispersed p...

      The relative viscosity of dispersion was investigated focussing the attention on the drop size distribution as well as the volume concentration of the dispersed phase: μ_r=exp [AΦ_t + BΦ_t²] where φis the volume concentration of the dispersed phase; A and B are functions of drop size distribution of the dispersed phase and viscosities of the continuous and the dispersed phases. In order to validate the proposed model, published data were applied to the model and were compared with calculated results. The errors between experimental viscosities and calculated values ranged from 0% to 3.86% depending on the materials of dispersions. Also the same model has been applied to the emulsion system. Predicted viscosities of emulsions by the model agreed with experimental data reasonably well giving a maximum error of 4.1%.

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