화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Journal of Industrial and Engineering Chemistry, Vol.19, No.4, 1130-1136, July, 2013
DOI10.1016/j.jiec.2012.12.009  Export Citation
Prediction of solubility parameter from intrinsic viscosity
Kyong Ho Han, Gil Song Jeon1, In Kwon Hong1, and Seung Bum Lee1, †
  • Department of Electronics and Electrical Engineering, Dankook University, 448-701, Republic of Korea
  • 1Department of Chemical Engineering, Dankook University, 448-701, Republic of Korea
E-mail:
Polymer for coating such as epoxy and alkyd resin use additives for enhancing physical properties, hardening acceleration, and decreasing viscosity. Therefore, diluent selection is important for blending of additives in the resin. The choice of these solvents is determined by comparing the solubility parameters. In this study, it is a measure of the intrinsic viscosity of epoxy resin by Ubbelohde viscometer and epoxy resin is calculated solubility parameter through intrinsic viscosity. The epoxy and alkyd resins’ solubility parameters were calculated from their intrinsic viscosities to be epoxy resin (δ2d = 16.55, δ2 p = 5.98, δ2h = 6.53) and alkyd resin (δ2d = 19.11, δ2 p = 3.96, δ2h = 4.86), respectively. Their total solubility parameters were calculated to be epoxy resin (δ2t = 18.77) and alkyd resin (δ2t = 20.11), respectively.
Keywords:Solubility parameter;Intrinsic viscosity;Epoxy resin;Alkyd resin;Chi parameter
  1. Ovejero G, Pe´ rez P, Romero MD, Guzma´ n I, Dı’ez E, European Polymer Journal., 43(4), 1444 (2007)
  2. Bustamante P, Navarro-Lupio´ n J, Escalera B, European Journal of Pharmaceutical Sciences., 24(2), 229 (2005)
  3. Frederic B, Christine C, Eugene EE, International Journal of Polymeric Materials., 57(11), 1036 (2008)
  4. Tog˘rul H, Arslan N, Carbohydrate Polymers., 54(1), 63 (2003)
  5. Kwaambwa HM, Goodwin JW, Hughes RW, Reynolds PA, Colloids and Surfaces A., 294(1), 14 (2007)
  6. Burkus Z, Temelli F, Carbohydrate Polymers., 54(1), 51 (2003)
  7. Bozdogan AE, Polymer, 45(18), 6415 (2004)
  8. Park KA, Kim KH, Hong IK, J. Ind. Eng. Chem., 17(2), 213 (2011)
  9. Higiro J, Herald TJ, Alavi S, Food Research International., 39(2), 165 (2006)
  10. Goh KKT, Matia-Merino L, Neil Pinder D, Saavedra C, Singh H, Food Hydrocolloids., 25(3), 286 (2011)
  11. Marcus Y, The Journal of Supercritical Fluids., 62(8), 60 (2012)
  12. Vay K, Scheler S, Frieß W, International Journal of Pharmaceutics., 416(1), 202 (2011)
  13. Charles M. Hansen, Hansen Solubility Parameters: A User’s Handbook, CRC, Press,New York (2000)
  14. Eslamimanesh A, Esmaeilzadeh F, Fluid Phase Equilib., 291(2), 141 (2010)
  15. Bordes C, Fre´ ville V, Ruffin E, Marote P, Gauvrit JY, Brianc¸on S, Lante´ ri P, International Journal of Pharmaceutics., 383(1-2), 236 (2010)
  16. Mohammad MA, Alhalaweh A, Velaga SP, International Journal of Pharmaceutics., 407(1), 63 (2011)
  17. Bielicka-Daszkiewicz K, Voelkel A, Pietrzyn´ ska M,He´ berger K, Journal of Chromatography A., 1217(35), 5564 (2010)
  18. O¨ zdemir C, Gu¨ ner A, European Polymer Journal., 43(7), 3068 (2007)
  19. Park KA, Lee HJ, Hong IK, J. Ind. Eng. Chem., 16(3), 490 (2010)
  20. Adamska K, Voelkel A, Journal of Chromatography A., 1132(1-2), 260 (2006)
  21. Adamska K, Bellinghausen R, Voelkel A, Journal of Chromatography A., 1195(1), 146 (2008)
  22. Adamska K, Voelkel A, International Journal of Pharmaceutics., 304(1-2), 11 (2005)
  23. Morris GA, Castile J, Smith A, Adams GG, Harding SE, Polymer Degradation and Stability., 94(9), 1344 (2009)
  24. Lai SL, Yang DH, Food Hydrocolloids., 21(5), 739 (2007)
  25. Yang J, Weng B, International Conference on Science and Technology of Synthetic Metals., 159(21-22), 2249 (2009)
  26. Doyle JP, Lyons G, Edwin R, Food Hydrocolloids., 23(6), 1501 (2009)