A modified Boltzmann sigmoidal model for the phase transition of smart gels
- Adriana L. Navarro-Verdugob(Author),
- Francisco M. Goycooleab(Author),
- Guillermo Romero-Meléndezc(Author),
- ,
- Waldo Argüelles-Monalb(Author)
- aCentro de Investigacion Cientifica de Yucatan,
- bCentro de Investigacion en Alimentacion y Desarrollo,
- cUniversidad de las Americas Puebla
Research Output: Contribution to journal Article Peer review
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Tipo di output
Research Output: Contribution to journal Article Peer review
Lingua originale
EnglishPagine da-a (Numero di pagine)
Pagine 5847-5853 (7 pagine)Rivista (volume, numero edizione)
Soft Matter (Volume 7, Edizione 12)Attività cardine della pubblicazione
- Published - 21/06/2011
Stato pubblicazione
Published - 21/06/2011
ISSN
1744-683XID pubblicazione esterna
- Scopus: 79959188981
Abstract
Smart gels are soft polymeric systems that exhibit a reversible phase transition when exposed to environmental stimuli. A modified Boltzmann sigmoidal equation is proposed to model the phase transition behavior of smart gels. The equation can be solved through nonlinear conventional mathematical techniques by determining the hydrogel volume as a function of a particular stimulus. The theoretical results are in good agreement with the experimental data and are similar to those obtained from multiphysical mathematical models. Moreover, for all of the adjusted parameters, error probabilities approaching zero were obtained.
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