Abstract
Orientation birefringence and its wavelength dispersion are studied for hot-drawn films of cellulose esters such as cellulose triacetate (CTA), cellulose diacetate (CDA), and cellulose acetate propionate (CAP) exposed to three different humidities of environments. Hot-drawn CTA films show negative birefringence that decreases with increasing wavelength. On the other hand, CDA and CAP films show positive birefringence that increases with increasing wavelength, i.e., the so-called extraordinary wavelength dispersion of birefringence. Upon exposure to high humidity environment, the orientation birefringence of CDA and CAP decreases. The decrease is prominent for the samples containing a large amount of water. CTA, however, shows an increase in magnitude of its negative orientation birefringence with increasing moisture content. The results can be explained by the increase of the polarizability anisotropy perpendicular to the stretching direction in the cellulose esters. It is found from ATR-FTIR measurements that hydrogen bonds are formed between carbonyl groups of cellulose esters and water molecules. Considering that orientation birefringence of cellulose esters is determined mainly by ester groups, the formation of hydrogen bonds contributes to the polarizability anisotropy, thus affecting the orientation birefringence.
Highlights
The growing awareness of the importance of sustainable development has prompted studies on biomass-based materials in various fields
The orientation birefringence of hot-drawn cellulose triacetate (CTA), cellulose diacetate (CDA) and cellulose acetate propionate (CAP) films exposed to three different levels of humidity was evaluated
A decrease in moisture content resulted in the increase of the magnitude of positive orientation birefringence in CAP and CDA, while CTA showed a decrease in the magnitude of its negative orientation birefringence
Summary
The growing awareness of the importance of sustainable development has prompted studies on biomass-based materials in various fields. Besides being derived from abundantly available biomass resources, they possess characteristics suitable as optical films such as high transparency and excellent heat resistance [1] By virtue of these properties, cellulose esters provide huge possibilities for future development of optical films in order to meet changing market demands. Kusanagi and Yukawa [16] have studied the intermolecular interactions between various solid polymers and water molecules absorbed by means of infra-red spectroscopy in order to clarify the water structures in solid polymer matrices They found that, as the polymer becomes more hydrophilic, the va(OH) and vs(OH) bands, which represent the asymmetric and symmetric OH stretching vibrations respectively, gradually shift to lower wavenumbers. The purpose is to study the impact of moisture content on orientation birefringence of cellulose esters and understanding the mechanism behind it
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