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Home / Conferences / ENERGY-SAVING AND ENVIRONMENTALLY FRIENDLY TECHNOLOGIES IN THE FORESTRY INDUSTRY / Materials of the International Scientific Conference of Scientists and Students «ENERGY-SAVING AND ENVIRONMENTALLY FRIENDLY TECHNOLOGIES IN THE FORESTRY INDUSTRY»
COMPOSITE MATERIAL FROM LARIX SIBIRICA LARCH WOOD
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COMPOSITE MATERIAL FROM LARIX SIBIRICA LARCH WOOD
UDK 674.038 Древесина с точки зрения применения
Shamaev Vladimir 1
Storodubtseva Tamara 2
Medvedev Il'ya 3
Trubnikov N. 4
Russu Aleksandr Viktorovich 5
Authors:
1.  Voronezh State University of Forestry and Technologies named after G.F. Morozov (kafedra drevesinovedeniya, professor)
Russian Federation
2.  Voronezh State University of Forestry and Technologies named after G.F. Morozov
3.  FSBE Institution of Higher Education Voronezh State University of Forestry and Technologies named after G.F. Morozov
Voronezh, Voronezh, Russian Federation
4.  «Modification» LLC
Russian Federation
5.  Voronezh State University of Forestry and Technologies named after G.F. Morozov (kafedra Drevesinovedenie, aspirant)
from 01.01.2021 until now FGBOU VO «Voronezhskiy gosudarstvennyy lesotehnicheskiy universitet imeni G. F. Morozova», ul. Timiryazeva, 8, g. Voronezh, 394087, Rossiya
Type:
Сonference article
DOI:
https://doi.org/10.58168/E-SEFTFI2024_227-230
Published:
28.12.2024
Subject area:
UDK 674.038 Древесина с точки зрения применения
Language:
Russian
Keywords:
natural wood, wood modification
Abstract and keywords
Abstract (English):
The article discusses the prospects for using nanocrystalline cellulose to obtain composite materials based on Siberian larch (Larix sibirica) wood.

Keywords:
natural wood, wood modification
References

1. Shamaev V. A., Razin'kov E. M., Ischenko T. L., Ziemelis A. E. Issledovanie ckleivaniya fanery s primeneniem nanokristallicheskoy cellyulozy // Lesotehnicheskiy zhurnal. 2014. T. 4, № 1(13). S. 151-155. DOI:https://doi.org/10.12737/3360.

2. Shamaev V. A., Nikulina N. S., Medvedev I. N. Modificirovanie drevesiny. – 2-e izd., pererab. i dop. – Voronezh, 2022. – 571 s.

3. Shamaev, V. A., Parinov D. A., Polilov A. N. Issledovanie podshipnikov skol'zheniya iz modificirovannoy drevesiny dlya tyazhelonagruzhennyh uzlov treniya // Problemy mashinostroeniya i nadezhnosti mashin. 2018. № 2. S. 54-59.

4. Ibach, R.E.; Clemons, C.M.; Schumann, R.L. Wood-plastic composites with reduced moisture: effects of chemical modification on durability in the laboratory and field. Forest Products Society. 2007, 7224: pp. 259-266.

5. Kovaleva, K.I.; Gorshkov, V.V.; Politenkova, G.G.; Mikhaleva, M.G.; Melnikov, V.P.; Gerasimov, D.S.; Nikolsky, S.N.; Stovbun, S.V. Experimental laboratory equipment for physical-chemical modification of wood pulp. Forestry bulletin. 2019. Vol. 23 Iss. 131, pp. 84-93.https://doi.org/10.18698/2542-1468-2019-1-84-93

6. Zelinka S.L., Altgen M., Emmerich L., Guigo N., Keplinger T., Kymäläinen M., Thybring E.E., Thygesen L.G. Review of Wood Modification and Wood Functionalization Technologies. Forests. 2022. Vol. 13, Iss. 7, pp. 1004-1004.https://doi.org/10.3390/f13071004.

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