STRUKTURNYE OSOBENNOSTI MIKROFIBRILLYaRNOY CELLYuLOZY IZ RAZLIChNOGO SYR'Ya

Petrov A A; Aver'yanova N V; Gibadullin M R; Hammatov I A

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STRUKTURNYE OSOBENNOSTI MIKROFIBRILLYaRNOY CELLYuLOZY IZ RAZLIChNOGO SYR'Ya

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STRUKTURNYE OSOBENNOSTI MIKROFIBRILLYARNOY CELLYULOZY IZ RAZLICHNOGO SYR'YA

Journal: HERALD OF TECHNOLOGICAL UNIVERSITY Volume 16 № 23 , 2025

Rubrics: PRIKLADNAYA HIMIYA I HIMICHESKAYA TEHNOLOGIYA

UDC 547.548.8

Petrov A A ¹

Aver'yanova N V ²

Gibadullin M R ³

Hammatov I A ⁴

Author and publication information

Authors:

1. KNITU

2. KNITU

3. KNITU

4. KNITU

Type:

Article

eLocation:

Status:

Published

Received:

20.04.2023

Accepted:

01.08.2025

Published:

01.08.2025

Subject area:

UDC 547.548.8

Language:

Russian

Keywords:

микрофибриллярная целлюлоза, наноразмерность, гомогенизация, структура целлюлозы, microfibrillar cellulose, nanoscale, homogenization, cellulose structure

Abstract and keywords

Abstract (English):
By electronic atomic force microscopy evaluated structural features of microfibrillar celluloses from different raw materials obtained after the high intensity mechanical processing.

Keywords:
микрофибриллярная целлюлоза, наноразмерность, гомогенизация, структура целлюлозы, microfibrillar cellulose, nanoscale, homogenization, cellulose structure

References

1. Robert J. Moon Cellulose nanomaterials review: structure, properties and nanocomposites / Robert J. Moon, Ashlie Martini, John Nairn, John Simonsen and Jeff Youngblood // Chem. Soc. Rev. - 2011. - V.40. -P. 3941-3994.

2. Petrov V.A. Poluchenie nanocellyulozy i fiziko-mehanicheskie harakteristiki plenok na ee osnove / V.A. Petrov i d.r. // Nauchnyy zhurnal «Vestnik kazanskogo tehnologicheskogo universiteta» Kazan', 2011. - №14. S. 181

3. Chinga-Carrasco G Micro-structural characterisation of homogeneous and layered MFC nano-composites / Chinga-Carrasco G at.al. // J. Micron. - 2013. -V.44. - P.331-338

4. Ishakov T.N. Issledovanie dielektricheskih svoystv cellyulozy i nanocellyulozy metodom shirokopolosnoy dielektricheskoy spektroskopii / T.N. Ishakov i dr. // Nauchnyy zhurnal «Vestnik kazanskogo tehnologicheskogo universiteta» Kazan', 2012. - № 16. T.- 15. S. 12 - 16.

5. Chinga-Carrasco G. Cellulose fibres, nanofibrils and microfibrils: the morphological sequence of MFC components from a plant physiology and fibre technology point of view. Nanoscale Res Lett. 2011. - V. 6. P. - 417-428.

6. Turbak A. Microfibrillated cellulose, a new cellulose product: properties, uses, and commercial potential / A. Turbak, F. Snyder, K. Sandberg // J. Appl. Polym. Symp. - 1983. - V.37. - P. 815-827.

7. Petrov V.A. Poluchenie mikrofibrillyarnoy cellyulozy iz razlichnogo syr'ya metodom vysokointensivnoy mehanicheskoy obrabotki /Petrov V.A. i dr.// Nauchnyy zhurnal «Vestnik kazanskogo tehnologicheskogo universiteta» Kazan', 2013. - № 14. T - 16. S. 83 - 86.

8. Elektronnyy resurs URL: http://rsb.info.nih.gov/ij/

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