THE FRACTIONAL COMPOSITION OF CRUSHED PINE BARK AND THE TYPE OF BINDER COMPONENT AS THE MAIN FACTORS AFFECTING THE THERMAL CONDUCTIVITY COEFFICIENT OF THERMAL INSULATION PLATES

Main Article Content

А. BAKATOVICH
N. BAKATOVICH
A. PENKRAT

Abstract

The possibility of obtaining thermal insulation based on pine bark as a structure-forming material is considered. The granulometric composition was studied with the determination of the percentage of fractions depending on the thickness of the pine bark. The coefficient of thermal conductivity of crushed bark by fractions is determined to optimize the particle sizes of the structure-forming material of thermal insulation boards. Modified liquid glass and rosin were used as binding components. The introduction of rosin in the form of fine powder made it possible to reduce the thermal conductivity coefficient of rigid plates on a large fraction (5–8 mm) to 0.051 W / (m×°C) at a density of 304 kg/m3. The thermal conductivity coefficient of compositions on rosin decreased by 10–13% compared to samples on liquid glass.

Article Details

How to Cite
BAKATOVICH А., BAKATOVICH, N., & PENKRAT, A. (2022). THE FRACTIONAL COMPOSITION OF CRUSHED PINE BARK AND THE TYPE OF BINDER COMPONENT AS THE MAIN FACTORS AFFECTING THE THERMAL CONDUCTIVITY COEFFICIENT OF THERMAL INSULATION PLATES. Vestnik of Polotsk State University. Part F. Constructions. Applied Sciences, (8), 38-45. https://doi.org/10.52928/2070-1683-2022-31-8-38-45
Author Biography

А. BAKATOVICH, Polotsk State University

канд. техн. наук, доц.

References

Chemodanov, A.N., Tsarev, E.M. & Anisimov, S.E. (2008). Produktsiya kompleksnoi pererabotki drevesiny i drevesnykh materialov. Ioshkar-Ola: Mariiskii gos. tekhn. un-t. (In Russ.).

Tatsyun, M.V. (2006). Sovremennoe sostoyanie LPK Rossii i puti ego razvitiya. Moscow: OOO «RIAPress». (In Russ.).

Volynskii, V. (2012). Pererabotka i ispol'zovanie drevesnoi kory. LesPromInform, (2), 168–170. (In Russ.).

Holz ist ein innovativer Werkstoff (2006). HK: Holz- und Kunststoffverarb.: Internationale Fachzeitschrift fur Unternehmer und Fuhrungskrafte, 41 (7–8), 22–26.

Rudenko, B.D. & Plotnikov, S.M. (2009). Rezhim izgotovleniya plit iz kory i vtorichnogo polietilena. Aktual'nye problemy lesnogo kompleksa, (24), 146–149. (In Russ.).

Romanovskiy, S. & Bakatovich, A. (2019). Effect of Modified Liquid Glass on Absorption Humidity and Thermal Conductivity of Flax Fiber Slabs. IOP Conf. Series: Materials Science and Engineering, (660). DOI: 10.1088/1757-899X/660/1/012072.

Obrompal'skii, R.L. & Bakatovich, A.A. (2020). Teploizolyatsionnye kompozity na osnove volokon kory evkalipta [Thermal insulation composites based on eucalyptic bar fibers]. In L.M. Parfenova (Eds.) Arkhitekturno-stroitel'nyi kompleks: problemy, perspektivy, innovatsii: elektron. sb. st. II mezhdunar. nauch. konf., Novopolotsk, 28–29 noyab. 2019 g. (405–410). Novopolotsk: Polots. gos. un-t. (In Russ., abstr. in Engl.).

Veretennik, D.G. (1976). Ispol'zovanie drevesnoi kory v narodnom khozyaistve. Moscow: Lesnaya prom-st'. (In Russ.).

Pastori, Z., Mokhachine, I.R., Gorbacheva, G.A. & Sanaev, V.G. (2017). Issledovaniya teploizoliruyushchei sposobnosti drevesnoi kory [Investigation of thermal insulation capacity of tree bark]. Lesotekhnicheskii zhurnal [Forestry Engineering Journal], (1), 157–161. DOI: 10.12737/25206. (In Russ., abstr. in Engl.).

Kilyusheva, N.V., Danilov, V.E. & Aizenshtadt, A.M. (2016). Teploizolyatsionnyi material iz kory sosny i ee ekstrakta [Heat Insulation Material Produced from Pine Bark and Its Extract]. Stroitel'nye materialy [Construction Materials], (11), 48–50. (In Russ., abstr. in Engl.).

Akhmedov, S.R. & Mikryukova, E.V. (2018). Kompozitsionnyi material na osnove kory i struzhki. NovaUm, (13), 14–16. (In Russ.).

Danilov, V.E. & Ajzenshtadt, A.M. (2019). Ispol'zovanie modifitsirovannoi drevesnoi kory sosny obyknovennoi v kachestve zasypnoi teplozvukoizolyatsii [The Use of Modified Scots Pine Bark as Filling Material of Heat and Sound Insulation]. Lesnoi zhurnal [Forestry Journal], (2), 111–118. DOI: 10.17238/issn0536-1036.2019.2.111. (In Russ., abstr. in Engl.).

Melekhov, V.I., Tyurikova, T.V. & Ponomareva, N.G. (2015). Energeticheskii potentsial drevesnoi kory v programme resursosberezhenie [The energy potential of the wood bark in the program of resource-saving]. Aktual'nye napravleniya nauchnykh issledo-vanii XXI veka: teoriya i praktika [Actual directions of scientific researches of the XXI century: theory and practice], 3 (9–3), 106–110. (In Russ., abstr. in Engl.).

Pastory, Z., Mohacsine, I.R., Gorbacheva, G.A. & Borcsok, Z. (2016). The Utilization of Tree Bark. Bioresources, (11), 7859–7888.

Tsyvin, M.M. (1973). Ispol'zovanie drevesnoi kory. Moscow: Lesnaya prom-st'. (In Russ.).