This paper represents the use of Maple software capabilities in the analyses of the polymer- solvent interactions. It illustrates the advantages of using Maple to estimate Hansen solubility parameters and to predict the polymer-solvent miscibility. The study focuses on the polymers and solvents that are employed in the polymer gel electrolytes. The acquired data showed high consistency and flexibility in calculations and estimations processes, especially in regarding with Hansen sphere plotting and relative energy distance calculations.
Published in | International Journal of Materials Science and Applications (Volume 5, Issue 5) |
DOI | 10.11648/j.ijmsa.20160505.11 |
Page(s) | 183-187 |
Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
Copyright |
Copyright © The Author(s), 2016. Published by Science Publishing Group |
Hansen Solubility Parameters, Polymer-Solvent Miscibility, Maple Software, Hansen Sphere
[1] | Hildebrand, J. H. and R. L. Scott, Solutions of Nonelectrolytes. Annual Review of Physical Chemistry, 1950. 1 (1): p. 75-92. |
[2] | Brown, G. H., Regular Solutions. By Joel H. Hildebrand and Robert L. Scott. Inorganic Chemistry, 1963. 2 (2): p. 431-432. |
[3] | Hansen, C. M., The three dimensional solubility parameter. Journal of paint technology, 1967. 39 (505): p. 104. |
[4] | Hansen, C. M., Hansen solubility parameters: a user's handbook. 2007: CRC press. |
[5] | HANSEN, C. M., THE THREE DIMENSIONAL SOLUBILITY PARAMETER AND SOLVENT DIFFUSION CO EFFICIENT, Their Importance In Surface Coating Formulation. 1967: COPENHAGEN DANISH TECHNICAL PRESS. |
[6] | Lee, J. N., C. Park, and G. M. Whitesides, Solvent Compatibility of Poly (dimethylsiloxane)-Based Microfluidic Devices. Analytical Chemistry, 2003. 75 (23): p. 6544-6554. |
[7] | Buckley-Smith, M. K., The Use of Solubility Parameters to select membrane materials for Pervaporation of organic mixtures. The University of WAIKATO, Hamilton, New Zealand, 2006. |
[8] | Barton, A. F. M., CRC Handbook of Solubility Parameters and Other Cohesion Parameters, Second Edition. 1991: Taylor & Francis. |
[9] | Grulke, E. A., Solubility Parameter Values, in The Wiley Database of Polymer Properties. 2003, John Wiley & Sons, Inc. |
[10] | Ganguly, S. C., Prediction of polymer properties. J Bicerano, Marcel Dekker, New York, 2002. ISBN 0-8247-0821-0. pp 784. Polymer International, 2005. 54 (1): p. 246-246. |
[11] | Alhalaweh, A., A. Alzghoul, and W. Kaialy, Data mining of solubility parameters for computational prediction of drug–excipient miscibility. Drug development and industrial pharmacy, 2014. 40 (7): p. 904-909. |
[12] | Bottino, A., et al., The formation of microporous polyvinylidene difluoride membranes by phase separation. Journal of Membrane Science, 1991. 57 (1): p. 1-20. |
[13] | Salman, R. K., Gelation and melting point depression in PVDF-based gel electrolytes. 2014: University of Leeds. |
[14] | Sanchez, I. C., Statistical thermodynamics of polymer blends. Vol. 1. 1999: Wiley: New York. |
[15] | Redelius, P., Bitumen Solubility Model Using Hansen Solubility Parameter. Energy & Fuels, 2004. 18 (4): p. 1087-1092. |
[16] | Belmares, M., et al., Hildebrand and Hansen solubility parameters from Molecular Dynamics with applications to electronic nose polymer sensors. Journal of Computational Chemistry, 2004. 25 (15): p. 1814-1826. |
[17] | Gharagheizi, F., New procedure to calculate the Hansen solubility parameters of polymers. Journal of Applied Polymer Science, 2007. 103 (1): p. 31-36. |
[18] | Song, J. Y., Y. Y. Wang, and C. C. Wan, Review of gel-type polymer electrolytes for lithium-ion batteries. Journal of Power Sources, 1999. 77 (2): p. 183-197. |
[19] | Stephan, A. M., Review on gel polymer electrolytes for lithium batteries. European Polymer Journal, 2006. 42 (1): p. 21-42. |
[20] | Bottino, A., et al., Solubility parameters of poly (vinylidene fluoride). Journal of Polymer Science Part B: Polymer Physics, 1988. 26 (4): p. 785-794. |
[21] | Grause, G., et al., Solubility parameters for determining optimal solvents for separating PVC from PVC-coated PET fibers. Journal of Material Cycles and Waste Management, 2015: p. 1-11. |
[22] | Merk, W., R. N. Lichtenthaler, and J. M. Prausnitz, Solubilities of fifteen solvents in copolymers of poly (vinyl acetate) and poly (vinyl chloride) from gas-liquid chromatography. Estimation of polymer solubility parameters. The Journal of Physical Chemistry, 1980. 84 (13): p. 1694-1698. |
[23] | <Membranes-Processing-Guide_EN-228113.PDF>. |
[24] | Zhang, Q. M., Bharti, V., Kavarnos, G., Schwartz, M., Poly (Vinylidene Fluoride) (PVDF) and its Copolymers. Encyclopedia of Smart Materials, 2002. 1-2: p. 807-825. |
[25] | Heiji, K., The Piezoelectricity of Poly (vinylidene Fluoride). Japanese Journal of Applied Physics, 1969. 8 (7): p. 975. |
[26] | Nunes, S. P. and K. V. Peinemann, Membrane Technology: in the Chemical Industry. 2006: Wiley. |
[27] | Fong, R., U. von Sacken, and J. R. Dahn, Studies of Lithium Intercalation into Carbons Using Nonaqueous Electrochemical Cells. Journal of the Electrochemical Society, 1990. 137 (7): p. 2009-2013. |
[28] | Moumouzias, G., et al., A study in conductances and physical constants of LiBF4 plus propylene carbonate-diethyl carbonate system. Journal of Power Sources, 1999. 81: p. 830-832. |
[29] | Hayamizu, K., Temperature Dependence of Self-Diffusion Coefficients of Ions and Solvents in Ethylene Carbonate, Propylene Carbonate, and Diethyl Carbonate Single Solutions and Ethylene Carbonate + Diethyl Carbonate Binary Solutions of LiPF6 Studied by NMR. Journal of Chemical & Engineering Data, 2012. 57 (7): p. 2012-2017. |
[30] | Evchuk, I. Y., et al., Solubility of polymethyl methacrylate in organic solvents. Russian journal of applied chemistry, 2005. 78 (10): p. 1576-1580. |
[31] | Asmussen, F. A. U., K., Koll. Z, 1968. 223 (no. 1): p. pp. 6 13. |
[32] | Wypych, G., Handbook of Solvents. 2001: ChemTec. |
[33] | Iovleva, M. M., V. N. Smirnova, and G. A. Budnitskii, The Solubility of Polyacrylonitrile. Fibre Chemistry, 2001. 33 (4): p. 262-264. |
[34] | Bashir, Z., S. P. Church, and D. M. Price, The formation of polymer-solvent complexes of polyacrylonitrile from organic solvents containing carbonyl groups. Acta Polymerica, 1993. 44 (5): p. 211-218. |
APA Style
Ra'id Khider Salman, Jassim Mohammed Salih. (2016). A New Approach to Estimate Hansen Solubility Parameters Using Maple Software. International Journal of Materials Science and Applications, 5(5), 183-187. https://doi.org/10.11648/j.ijmsa.20160505.11
ACS Style
Ra'id Khider Salman; Jassim Mohammed Salih. A New Approach to Estimate Hansen Solubility Parameters Using Maple Software. Int. J. Mater. Sci. Appl. 2016, 5(5), 183-187. doi: 10.11648/j.ijmsa.20160505.11
AMA Style
Ra'id Khider Salman, Jassim Mohammed Salih. A New Approach to Estimate Hansen Solubility Parameters Using Maple Software. Int J Mater Sci Appl. 2016;5(5):183-187. doi: 10.11648/j.ijmsa.20160505.11
@article{10.11648/j.ijmsa.20160505.11, author = {Ra'id Khider Salman and Jassim Mohammed Salih}, title = {A New Approach to Estimate Hansen Solubility Parameters Using Maple Software}, journal = {International Journal of Materials Science and Applications}, volume = {5}, number = {5}, pages = {183-187}, doi = {10.11648/j.ijmsa.20160505.11}, url = {https://doi.org/10.11648/j.ijmsa.20160505.11}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijmsa.20160505.11}, abstract = {This paper represents the use of Maple software capabilities in the analyses of the polymer- solvent interactions. It illustrates the advantages of using Maple to estimate Hansen solubility parameters and to predict the polymer-solvent miscibility. The study focuses on the polymers and solvents that are employed in the polymer gel electrolytes. The acquired data showed high consistency and flexibility in calculations and estimations processes, especially in regarding with Hansen sphere plotting and relative energy distance calculations.}, year = {2016} }
TY - JOUR T1 - A New Approach to Estimate Hansen Solubility Parameters Using Maple Software AU - Ra'id Khider Salman AU - Jassim Mohammed Salih Y1 - 2016/08/17 PY - 2016 N1 - https://doi.org/10.11648/j.ijmsa.20160505.11 DO - 10.11648/j.ijmsa.20160505.11 T2 - International Journal of Materials Science and Applications JF - International Journal of Materials Science and Applications JO - International Journal of Materials Science and Applications SP - 183 EP - 187 PB - Science Publishing Group SN - 2327-2643 UR - https://doi.org/10.11648/j.ijmsa.20160505.11 AB - This paper represents the use of Maple software capabilities in the analyses of the polymer- solvent interactions. It illustrates the advantages of using Maple to estimate Hansen solubility parameters and to predict the polymer-solvent miscibility. The study focuses on the polymers and solvents that are employed in the polymer gel electrolytes. The acquired data showed high consistency and flexibility in calculations and estimations processes, especially in regarding with Hansen sphere plotting and relative energy distance calculations. VL - 5 IS - 5 ER -