Improving the efficiency of power transformers insulation by modifying the dielectric paper with bacterial cellulose

Zhuravleva, N. M.; Reznik, Alexandr S.; Kiesewetter, Dmitry; Stolpner, A M; Smirnova, E. G.; Хрипунов, А. К.

doi:10.1088/1742-6596/1236/1/012002

Cited by 9 publications

(1 citation statement)

References 2 publications

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“…В работе [16] показана перспективность использования БНЦ в качестве компонента упаковочных материалов, в частности, для упаковки пищевых продуктов, в работе [17] описано получение биоактивной бумаги в качестве нового упаковочного материала. В работе [18] [19,20].…”

Section: результатыunclassified

Bacterial nanocellulose and softwood pulp for composite paper

Gismatulina

Будаева

Sitnikova

et al. 2021

Izvestiâ vuzov. Prikladnaâ himiâ i biotehnologiâ

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Scaling biosynthesis of bacterial nanocellulose (BNC) allowed samples of composite paper with an increased proportion of BNC to be obtained. This work aims to study BNC samples and bleached soft wood kraft pulp (BSKP) composite paper with a ratio of components varying across a wide range: 10:90, 30:70, 50:50, 60:40, 70:30, 90:10. The method of paper manufacturing was chosen based on the determinations of strength and deformation properties of composite samples with the BNC:BSKP ratio of 20:80. Surface application of BNT on BSKP handsheet provided for an increase in the strength values (tear resistance – by 37%, burst index – by 17%) and deformation characteristics (tension stiffness – by 66%, fracture work – by 8%, breaking length – by 4%) compared to a reference sample. The formation of composites is confirmed in all samples. Scanning electron spectroscopy revealed that paper composites comprise interlaced micro BSKP and nano BNC fibres. As the proportion of BNC in composites elevated, densification of the structure was observed due to an increased fraction of cross-linked nanosized elements. IR spectroscopy indicated the resemblance of cellulose structure in all samples. It was found that an increase in the degree of polymerisation of composite paper is directly proportional to an increase in the BNC amount in the samples. The filtering ability of composite paper samples against microorganisms in the culture liquid of the Medusomyces gisevii Sa-12 producer was studied. It should be noted that yeast retention is achieved with 70% BNC in the paper composite. The presented properties of the new material determine prospects for its use in filtering microorganisms.

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Section: результатыunclassified