Propriedades Tecnológicas Da Madeira De Eucalipto Submetida Ao Tratamento Térmico

Juizo, Claudio Gumane Francisco; Zen, Linéia Roberta; Klitzke, Walderson; França, Morgana Cristina; Cremonez, Vitor Gonçalves; Klitzke, Ricardo Jorge

doi:10.31413/nativa.v6i5.5666

Cited by 4 publications

(4 citation statements)

References 16 publications

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“…There was no statistical difference for the mass loss of angelim wood between the studied heat treatments; however, it is possible to notice that there was a slight increase in mass loss with the increase in temperature and time. The same was reported by Juizo et al (2018), who subjected eucalyptus wood to heat treatment in a closed system oven at temperatures and exposure times ranging from 180 ºC to 240 ºC and 2 h and 4 h. These authors found a reduction in mass loss and a consequent reduction in apparent density, with a tendency to further decrease with increasing temperature, reaching a reduction of around 16,43 % in relation to untreated wood for the highest exposure temperature of 240 ºC. Ferreira et al (2019) heat treated angelim pedra (stone) wood using temperatures of 180 ºC and 200 ºC with exposure times varying from 2 h to 4 h in a forced air circulation oven; similarly to this study, they did not obtain a significant reduction in the density of the treated wood.…”

Section: Density Mass Loss Retractabilities and Anisotropy Coefficientsupporting

confidence: 86%

Effect of heat treatment on physical, mechanical and chemical properties of angelim wood

Paula¹,

Gonçalez²,

Ananías³

et al. 2022

Maderas, Cienc. tecnol.

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This study had the objective to heat treated angelim vermelho (red) wood and then to analyze its effects on the physical, mechanical and chemical properties of the wood. The wood was treated at 180 ºC and 215 °C for 20 min and 40 min in a muffle furnace. The basic density, shrinkage, anisotropy, the modulus of rupture and modulus of elasticity, as well as the holocellulose, lignin, extractives and ash content values were obtained for the treated and untreated (control) wood. The results indicated that the basic density was not changed and there was a decrease in volumetric shrinkage in the most severe treatment. The modulus of rupture did not change and the chemical analysis indicated a decrease in the holocellulose and extractives content resulting in lignin content percentage increase, mainly in the most severe test.

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Section: Density Mass Loss Retractabilities and Anisotropy Coefficientsupporting

confidence: 86%

Effect of heat treatment on physical, mechanical and chemical properties of angelim wood

Paula¹,

Gonçalez²,

Ananías³

et al. 2022

Maderas, Cienc. tecnol.

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“…Os valores das densidade aparente não terem sido significativos (Tabela 2), manifestou a mesma tendência dos estudos de Conte et al (2014), Juizo et al (2018), Lobato et al (2020 e Schulz et al (2020), onde analisaram diferentes tratamentos de modificação térmica para as madeiras de Pinus elliottii, Eucalyptus sp., Pouteria caimito e P. elliottii, respectivamente, e não apresentaram diferença para esse parâmetro. Isto indica que, durante o processo de modificação térmica, o aumento de temperatura não provocou nas amostras uma diminuição de massa proporcional à diminuição de volume, apontando assim, que a densidade aparente não se apresentou como uma boa propriedade para avaliar a qualidade do tratamento térmico (Calonego et al, 2012).…”

Section: Resultsunclassified

Efeito da modificação térmica nas propriedades físicas da madeira de Pinus caribaea var. hondurensis Barrett & Golfari

Santos

Silva

2021

Cad. Cienc. Agrar.

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A madeira do gênero Pinus é amplamente utilizada na indústria florestal, principalmente no setor moveleiro e civil, sendo assim, importante a busca por técnicas que melhorem e aperfeiçoem as suas propriedades tecnológicas. Neste sentido, o presente estudo teve como objetivo avaliar o efeito da modificação térmica nas propriedades físicas da madeira de Pinus caribaea var. hondurensis sob duas diferentes temperaturas. Foram utilizadas três árvores com idade de 14 anos do campo experimental da Universidade Estadual do Sudoeste da Bahia, em Vitória da Conquista, BA, das quais foram confeccionadas em amostras com dimensões de 30 x 30 x 50 mm. O processo de modificação térmica foi realizado em uma estufa laboratorial a 160ºC e 200°C de temperatura final de ciclo que, somados ao controle, representaram três tratamentos em análise. Foram realizados os ensaios de densidade aparente, umidade, perda de massa, taxa de absorção de água e estabilidade dimensional. Concluiu-se que a modificação térmica alterou as propriedades físicas avaliadas, tornando a madeira menos higroscópica e com maior estabilidade dimensional, além de ter influenciado na coloração da madeira em relação a sua aparência natural.

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“…Based on the studies, it is noted that research aiming to identify the best temperatures and times for heat treatments will contribute positively to the production of quality products with excellent physical-mechanical properties for application in different environments. According to ARAÚJO et al [42], WANDSCHEER et al [43] and JUIZO et al [44] the performance of heat treatment tends to improve the quality of wood and wood panels, expanding its field of applications in construction and flooring. Furthermore, wood products developed from heat-treated can be used to make furniture, floors, doors, walls, windows, and playground equipment.…”

Section: Flexural Strength In Three Pointsmentioning

confidence: 99%

Improvement of the properties of hardboard with heat treatment application

et al. 2023

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The attempt to face the limitations of wood-based materials, especially concerning the relationship with water, is still a considerable gap in research on this subject. The present work proposes the accomplishment of thermal treatment in fiberboard-type hardboard, using different temperatures and times, to evaluate the effect on the physical-mechanical properties. The parameters of the heat treatment were temperatures of 120 and 160 °C and times of 20 and 40 min. The hardboards were individually heat treated in a kiln. The characterization was performed from physical tests such as bulk density, moisture content, water absorption (2 and 24 h), thickness swelling (2 and 24 h); and mechanical properties of flexural strength. The treatment with a temperature of 160 °C for 40 min showed the lowest values of water absorption in 24 h (34%). Thickness swelling was lower compared to control, for all the treatments applied. Regarding flexural strength, the treatment that adopted the 160 °C for 20 min showed the highest MOR value (26.3 MPa). In general, the performance of heat treatments positively influenced the physical and mechanical properties of the hardboards, being an interesting alternative in the development of products for applications in internal environments.

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Propriedades Tecnológicas Da Madeira De Eucalipto Submetida Ao Tratamento Térmico

Cited by 4 publications

References 16 publications

Effect of heat treatment on physical, mechanical and chemical properties of angelim wood

Effect of heat treatment on physical, mechanical and chemical properties of angelim wood

Efeito da modificação térmica nas propriedades físicas da madeira de Pinus caribaea var. hondurensis Barrett & Golfari

Improvement of the properties of hardboard with heat treatment application

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