The peculiar features of relaxation processes in active cellulose fillers are elucidated using the dipole relaxation method, the measurements being made in a frequency range from 10 to 103 Hz at temperatures from -100 to + 100C. A hypothetical model of structural changes in a cellulose matrix due to the introduction of ionogenic acidic groups is proposed. A possibility is shown of controlling polarization processes in such structures by applying electric fields of variable strength at room temperature.
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