WATER VAPOR BARRIER PROPERTIES OF COATED AND FILLED MICROFIBRILLATED CELLULOSE COMPOSITE FILMS

Kelley L. Spence, Richard A. Venditti*, Orlando J. Rojas, Joel J. Pawlak, Martin A. Hubbe

*Corresponding author for this work

    Research output: Contribution to journalLiterature reviewScientificpeer-review

    Abstract

    Microfibrillated celluloses (MFCs) have mechanical properties sufficient for packaging applications but lack water vapor barrier properties in comparison to petroleum-based plastics. These properties can be modified by the use of mineral fillers, added within the film structure, or waxes, as surface coatings. In this investigation it was determined that addition of fillers resulted in films with lower densities but also lower water vapor transmission rates (WVTR). This was hypothesized to be due to decreased water vapor solubility in the films. Associated transport phenomena were analyzed by the Knudsen model for diffusion but due to the limited incorporation of chemical factors in the model and relatively large pore sizes, accurate prediction of pore diameters for filled films was not possible with this model. Modeling the filled-films with Fick's equation, however, takes into account chemical differences, as observed by the calculated tortuosity values. Interestingly, coating with beeswax, paraffin, and cooked starch resulted in MFC films with water vapor transmission rates lower than those for low density polyethylene. These coatings were modeled with a three-layer model which determined that coatings were more effective in reducing WVTR.

    Original languageEnglish
    Pages (from-to)4370-4388
    Number of pages19
    JournalBioResources
    Volume6
    Issue number4
    Publication statusPublished - 2011
    MoE publication typeA1 Journal article-refereed

    Keywords

    • Microfibrillated cellulose
    • MFC
    • Nanofibrillated cellulose
    • NFC
    • Water vapor transmission rate
    • Internal filler, Surface coating
    • Mineral fillers
    • Beeswax
    • Paraffin
    • Cooked starch
    • PACKAGING APPLICATIONS
    • NANOCOMPOSITE FILMS
    • TRANSMISSION
    • DIFFUSION
    • PAPER
    • PULP

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