Determining patterns in the formation of a polymer shell by powder paint on wood surface

Tsapko, Yuriy; Likhnyovskyi, Ruslan; Buiskykh, Nataliia; Horbachova, Oleksandra; Mazurchuk, Serhii; Lastivka, Oles; Tsapko, Аleksii; Sokolenko, Kostiantyn; Matviichuk, Andrii

doi:10.15587/1729-4061.2023.273364

Cited by 1 publication

(1 citation statement)

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“…To determine the thermophysical characteristics of wood polymer material from wood sawdust and dry mixtures of synthetic resins (polyester), samples were made by mixing sawdust and dry mixtures of polyester resin (Etika polyester powder paint, produced in Turkey) in a ratio of 1:2 and applied to the wood according to [15]. From the resulting mixture, a semi-cylinder with the following dimensions was formed: outer diameter -40 mm, inner diameter -24 mm, and length 120 mm, and thermal sintering was carried out at a temperature of 200 °C for 20 min (Fig.…”

Section: Investigated Materials Used In the Experimentsmentioning

confidence: 99%

Determining thermal and physical characteristics of wood polymer material for pipeline thermal insulation

Tsapko,

Kasianchuk,

Likhnyovskyi

et al. 2023

EEJET

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One of the methods for ensuring the efficiency of pipelines for transporting heat-carriers during operation is their thermal insulation, which inhibits heat transfer processes and does not affect environmental indicators. Therefore, the object of research was wood, a polymer material made by polymerization of wood sawdust and dry mixtures of synthetic resins for thermal insulation of pipelines. It has been proven that in the process of thermal action on the heat insulating layer of wood polymer material, the process of heat inhibition involves the formation of pores. This is due to the fact that the thermal conductivity of the material depends on the volumetric mass, the decrease of which for a wood polymer product leads to a decrease in thermal conductivity. In this regard, the simulation of the process of heat transfer through a cylindrical heat-insulating layer made of wood of polymer material was carried out and the dependences derived, which allow obtaining a change in the dynamics of heat transfer and determining thermophysical properties. According to the experimental data and the established dependences, it was found that the thermal conductivity of the wood of the polymer material was within 2.4÷2.9·10-8 m2/s, the thermal conductivity of the sample did not exceed 0.030 W/(m∙K). In addition, the heat capacity of the product corresponds to a value of more than 1034÷1145 kJ/(kg·K) depending on the thickness, which accordingly categorizes it as a heat-insulating material. At the same time, data on thermal insulation properties for polyurethane foam show that when it is used with a density of 100 kg/m3, the thermal conductivity is 0.029 W/(m∙K), which is approximately the same as the value of the proposed wood polymer material. The practical value is the fact that the results of determining the heat-insulating properties of a wood polymer material make it possible to establish the scope and conditions of its application

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Section: Investigated Materials Used In the Experimentsmentioning

confidence: 99%