S. V. Gilfanova scite author profile

The article presents the study results of the structure and properties of paper ashless filters "Blue tape". It is shown that the "Blue tape" filter paper has a fairly high density with a relatively small number and size of voids (pores) between the fibers. When processing filters in the corona discharge field, an increase in their mechanical properties by 3.5–6% is observed, this is mainly due to the strengthening of the interfiber bond forces. The implementation of increased electrostatic bonding forces in the sheet structure leads to an increase in the resistance to the external tensile force necessary to break the paper filter. The observed dependences are associated with the orientation and ordering of the pulp and paper material structural elements, with an increase in the potential of the double electric layer on the fibers surface under the charge action carriers injected into the paper volume from the corona discharge and with the formation of a hetero charge due to the orientation of the polar cellulose groups and macromolecule segments during electreting. This is confirmed by the increase in the ζ – potential of the fibers of filters during processing in a negative corona discharge - it was found that the zeta – potential value of electret ashless filters is 18% higher than for the initial ones. The achieved results of increasing the ashless filters physico- mechanical properties will increase the efficiency of their use.

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Change of Geometric and Sorption Properties of Ashless Filter Papers During Their Treatment in the Corona Discharge Field

Gilfanova

Галиханов

Galeeva

2022

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S. V. Gilfanova

Investigation of electret and filtering properties of polypropylene-based nonwoven fabrics and its composites with 2 vol% of silicon dioxide inclusions

Influence of electret effect on filter and dividing capabilities of polymer nonwoven materials

Influence of unipolar corona discharge on mechanical and operating properties of paper ashless filters

About the Reasons for the Change in the Mechanical Properties of Paper Ashless Filters During Their Processing in a Unipolar Corona Discharge

Change of Geometric and Sorption Properties of Ashless Filter Papers During Their Treatment in the Corona Discharge Field

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