Estimation of Activity Coefficients and Interaction Parameters of Solutes in Silicon MeltsMATSUMIYA, Tooru.Metallurgical and materials transactions. B, Process metallurgy and materials processing science. 2012, Vol 43, Num 4, pp 726-730, issn 1073-5615, 5 p.Article

Activity Coefficient of Manganese in CopperJUNG, Sung-Mo; RHEE, Chang-Hee; MIN, Dong-Joon et al.ISIJ international. 2007, Vol 47, Num 11, pp 1699-1701, issn 0915-1559, 3 p.Article

Prediction Expressions of Component Activity Coefficients in Si-Based MeltsTAO, Dong-Ping.Metallurgical and materials transactions. B, Process metallurgy and materials processing science. 2014, Vol 45, Num 1, pp 142-149, issn 1073-5615, 8 p.Article

Activity coefficient and solubility of amino acids in water by the modified Wilson modelXIN XU; PINHO, Simao P; MACEDO, Eugénia A et al.Industrial & engineering chemistry research. 2004, Vol 43, Num 12, pp 3200-3204, issn 0888-5885, 5 p.Article

Volatilization and activity coefficient of Sb in Cu-Fe mattes and white metalLYNCH, D. C; ZHONG, T.Canadian metallurgical quarterly. 2005, Vol 44, Num 3, pp 409-420, issn 0008-4433, 12 p.Article

Measuring and Modeling Activity Coefficients in Aqueous Amino-Acid SolutionsHELD, Christoph; CAMERETTI, Luca F; SADOWSKI, Gabriele et al.Industrial & engineering chemistry research. 2011, Vol 50, Num 1, pp 131-141, issn 0888-5885, 11 p.Article

The Combinatorial Term for COSMO-Based Activity Coefficient ModelsSOARES, Rafael De P.Industrial & engineering chemistry research. 2011, Vol 50, Num 5, pp 3061-3064, issn 0888-5885, 4 p.Conference Paper

A Derivation of a Quadratic Activity Coefficient vs Composition Relationship in a Quaternary System, A-B-C-DGHOSH, Dinabandhu.Metallurgical and materials transactions. B, Process metallurgy and materials processing science. 2010, Vol 41, Num 6, pp 1274-1283, issn 1073-5615, 10 p.Article

Activity Coefficients of LiCl in Ethanol-Water Mixtures at 298.15 KHERNANDEZ-LUIS, Felipe; GALLEGUILLOS, Héctor R; GRABER, Teofilo A et al.Industrial & engineering chemistry research. 2008, Vol 47, Num 6, pp 2056-2062, issn 0888-5885, 7 p.Article

A new method for calculating activity coefficient of mixed electrolytesLIM, T. K.Journal of solution chemistry. 1987, Vol 16, Num 1, pp 11-20, issn 0095-9782Article

Mean molal activity coefficients of aqueous rare earth bromide solutions at 25°CFUKUSHI, K; MUTOH, A; ISHIKAWA, K et al.Journal of alloys and compounds. 1993, Vol 192, Num 1-2, pp 290-292, issn 0925-8388Conference Paper

Calculation of the activity coefficients of the microcomponents in mixed solutions which do not obey Zdanovskii's ruleDENISOV, D. A.Russian journal of physical chemistry. 1990, Vol 64, Num 7, pp 1046-1048, issn 0036-0244, 3 p.Article

On the activity of ions and the junction potential: Revised values for all dataWILCZEK-VERA, Grazyna; RODIL, Eva; VERA, Juan H et al.AIChE journal. 2004, Vol 50, Num 2, pp 445-462, issn 0001-1541, 18 p.Article

The activity coefficient at extremely low concentrationsBRÜCKMANN, A.Thermochimica acta. 1994, Vol 245, pp 231-233, issn 0040-6031Conference Paper

An improved method for the calculation of excess free energies of surface solutionsNIKITAS, P.Electrochimica acta. 1989, Vol 34, Num 2, pp 293-296, issn 0013-4686Article

Osmotic coefficients of triorganophosphorus compounds in n-octane and benzeneSAGERT, N. H; BANGU, K; LAU, D. W. P et al.Journal of chemical and engineering data (Print). 1987, Vol 32, Num 4, pp 460-461, issn 0021-9568Article

Sur une possibilité de prise en compte effective du caractère non idéal d'une solution d'électrolyte dans une phase ionite lors de l'étude de l'équilibre de DonnanovYAROSHCHUK, A. EH; MESHCHERYAKOVA, E. V.Kolloidnyj žurnal. 1987, Vol 49, Num 3, pp 611-614, issn 0023-2912Article

Solubility Calculation of Active Pharmaceutical Ingredients in Alkanes, Alcohols, Water and their Mixtures Using Various Activity Coefficient ModelsDIEDRICHS, Anja; GMEHLING, Jürgen.Industrial & engineering chemistry research. 2011, Vol 50, Num 3, pp 1757-1769, issn 0888-5885, 13 p.Article

Symmetric Electrolyte Nonrandom Two-Liquid Activity Coefficient ModelYUHUA SONG; CHEN, Chau-Chyun.Industrial & engineering chemistry research. 2009, Vol 48, Num 16, pp 7788-7797, issn 0888-5885, 10 p.Article

Osmotic and activity coefficients of 1:1, 1:3, 1:4, 2:1, 2:2, 3:1, 3:2 and 4: 1 strong electrolytes at 298.15 K using a modified pitzer equationPEREZ-VILLASENOR, Fernando; BEDOLLA-HERNANDEZ, M. L; IGLESIAS-SILVA, Gustavo A et al.Industrial & engineering chemistry research. 2007, Vol 46, Num 19, pp 6366-6374, issn 0888-5885, 9 p.Article

Extension of nonrandom two-liquid segment activity coefficient model for electrolytesHEN, Chau-Chyun; YUHUA SONG.Industrial & engineering chemistry research. 2005, Vol 44, Num 23, pp 8909-8921, issn 0888-5885, 13 p.Article

Solubility modeling with a nonrandom two-liquid segment activity coefficient modelCHEN, Chau-Chyun; YUHUA SONG.Industrial & engineering chemistry research. 2004, Vol 43, Num 26, pp 8354-8362, issn 0888-5885, 9 p.Article

Determination of the activity of surfactants in presence of inorganic saltsFROLOV, YU. G; KIM, V; SUYASOV, YU. N et al.Kolloidnyj žurnal. 1990, Vol 52, Num 5, pp 1007-1010, issn 0023-2912, 4 p.Article

Individual Ionic Activity Coefficients of Sodium Halides in Glucose—Water Solutions at 298.15 KWEIYAN DONG; YANG ZHAO; KELEI ZHUO et al.Industrial & engineering chemistry research. 2010, Vol 49, Num 19, pp 9430-9435, issn 0888-5885, 6 p.Article

Symmetric Nonrandom Two-Liquid Segment Activity Coefficient Model for ElectrolytesYUHUA SONG; CHEN, Chau-Chyun.Industrial & engineering chemistry research. 2009, Vol 48, Num 11, pp 5522-5529, issn 0888-5885, 8 p.Article