Características Anatômicas E Propriedades Físico-Mecânicas Das Madeiras De Duas Espécies De Mogno Africano

França, Tâmara Suely Filgueira Amorim; Arantes, Marina Donária Chaves; Paes, Juarez Benigno; Vidaurre, Graziela Baptista; Oliveira, José Tarcísio da Silva; Baraúna, Edy Eime Pereira

doi:10.1590/01047760201521041877

Cited by 27 publications

(24 citation statements)

References 4 publications

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“…O comprimento e espessura da parede celular estão relacionados com a resistência das fibras celulósicas e afetam as propriedades físicas da madeira, como a densidade e a sua estabilidade dimensional (FRANÇA et al, 2015).…”

Section: Discussionunclassified

CARACTERIZAÇÃO ANATÔMICA E DESCRIÇÃO FÍSICO-QUÍMICA E MECÂNICA DA MADEIRA DE Mimosa schomburgkii

Costa

Lopes

Reis

et al. 2017

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ResumoO uso de madeira de espécies alternativas na construção civil é uma alternativa para reduzir a utilização concentrada em poucas espécies e evitar a falta de matéria prima no mercado. Diante do exposto, o objetivo deste estudo foi avaliar propriedades físicas, químicas, anatômicas e mecânicas da madeira de Mimosa schomburgkii visando identificar o seu potencial para o uso na construção civil. Foi utilizada a madeira de Mimosa schomburgkii, com idade de 33 anos. As características anatômicas avaliadas foram as dimensões dos elementos de vasos (diâmetro e frequência), dos raios (altura e largura) e das fibras (comprimento, largura total, espessura de parede e de lume). Foi determinada a constituição química com a quantificação do teor de extrativo, lignina e holocelulose. Para a caracterização físico-mecânica, foram avaliadas a densidade básica e aparente, contrações, o coeficiente de anisotropia, a resistência à flexão estática, à compressão paralela às fibras, à tração paralela às fibras, ao cisalhamento e a dureza Janka (paralela e perpendicular às fibras). A madeira possui fibras libriformes, com comprimento médio de 1180 μm, sendo classificadas como curtas. A densidade básica da madeira é em média 0,80 g.cm -3 (alta densidade), o coeficiente de anisotropia, em média 1,74. A madeira apresenta elevada resistência mecânica, sendo classificada como pertencente à classe C 60. Pelos resultados obtidos no estudo, a madeira de jurema (Mimosa schomburgkii) apresenta aspectos estéticos atrativos e elevada resistência mecânica, sendo, portanto, indicada para uso na construção civil. Palavras-chave: Propriedades da madeira; construção civil; elevada resistência mecânica; alta densidade básica. Abstract Anatomical characterization and physical-chemical and mechanical description of Mimosa schomburgkiiwood. The use of wood of alternative species in civil construction has been an option to reduce the concentrated use of few species and to avoid the lack of raw material in the market. The objective of this study was to evaluate the physical, chemical, anatomical and mechanical properties of Mimosa schomburgkii wood, in order to identify its potential use in civil construction. Mimosa schomburgkii wood, at the age of 33 years, was used. The anatomical characteristics evaluated were the dimensions of vessel elements (diameter and frequency), rays (height and width) and fibers (length, width, wall thickness and lumen thickness). The chemical constitution was determined with the quantification of extractive content, lignin and holocellulose. For the physical-mechanical characterization, it was evaluated the specific gravity and apparent density, contractions, anisotropy coefficient, static bending strength, compression strength parallel to grain, traction strength parallel to grain, shear strength and Janka hardness (parallel and perpendicular to grain). The wood has libriform fibers, average length of 1180 μm, and it is classified as short. The wood basic density is on average of 0.80 g.cm -3 (high density). The anisotropy...

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Section: Discussionunclassified

CARACTERIZAÇÃO ANATÔMICA E DESCRIÇÃO FÍSICO-QUÍMICA E MECÂNICA DA MADEIRA DE Mimosa schomburgkii

Costa

Lopes

Reis

et al. 2017

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“…Therefore, the species develops better under these conditions. França et al (2015) and Santos et al (2018) reports that Khaya senegalensis moderately tolerates shade in the initial phase. This response is typical of secondary species, which develop better on partial light levels.…”

Section: Resultsmentioning

confidence: 99%

“…In good soils, such as dense forest wetlands, it can reach 15 to 30 meters in height. Its wood is highly valued and used for quality furniture production (França et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

LUMINOSITY LEVELS AFFECT THE INITIAL SEEDLINGS GROWTH AND NUTRIENT ACCUMULATION IN Khaya senegalensis A. JUSS

Pereira

Gonçalves

Souza

et al. 2018

CERNE

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“…Despite the incentives for the introduction of K. anthotheca to Brazil, the availability of seeds and plants for field plantations are still low (PINHEIRO, 2011;FRANÇA et al, 2015). Furthermore, there is no established breeding program for the species in Brazil, nor a germplasm bank, which could be used toward selecting superior genotypes adaptable to Brazilian sites.…”

Section: Introductionmentioning

confidence: 99%

Propagation of Khaya Anthotheca: Interspecific Grafting With Swietenia Macrophylla and Air Layering

Filho

Carvalho

Oliveira

et al. 2016

CERNE

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Swietenia macrophylla yields high-quality wood; however, its vulnerability to extinction coupled with challenges for its cultivation have brought attention to its replacement for alternative species such as the Khaya anthotheca. The species has been recently introduced to South America, with potential for the production of high-quality wood. However, limited background on breeding and efficient strategies for its vegetative propagation exist. Here, we achieved significant results with the application of cleft grafting and air layering for the propagation of K. anthotheca plants grown from seeds. First, we analyzed the compatibility of scions and rootstocks for intraspecific and interspecific cleft grafting combinations of K. anthotheca and S. macrophylla. Second, air layering was performed in K. anthotheca seedlings irrigated with three nutrient solution (100%, 50% and 25% of the initial concentration of nutrients) combined with the application of indole-3-butyric acid (IBA) to evaluate adventitious rooting. From cleft grafting, we achieved an overall graft compatibility and survival of 48% after 200 days. However, the interspecific combination of S. macrophylla (scion) and K. anthotheca (rootstock) implicated in no compatibility, while the reciprocal resulted in 52% of compatibility. Through air layering, the irrigation with the nutrient solution with at least 50% of the nutrients concentration and with IBA (3.0 or 8.0 g.L-1) resulted in the best adventitious rooting. Overall, we recommend cleft grafting, except for the combination S. macrophylla (scion) and K. anthotheca (rootstock), with no compatibility. Air layering might also be useful for the propagation of K. anthotheca genotypes in breeding programs.

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Características Anatômicas E Propriedades Físico-Mecânicas Das Madeiras De Duas Espécies De Mogno Africano

Cited by 27 publications

References 4 publications

CARACTERIZAÇÃO ANATÔMICA E DESCRIÇÃO FÍSICO-QUÍMICA E MECÂNICA DA MADEIRA DE Mimosa schomburgkii

CARACTERIZAÇÃO ANATÔMICA E DESCRIÇÃO FÍSICO-QUÍMICA E MECÂNICA DA MADEIRA DE Mimosa schomburgkii

LUMINOSITY LEVELS AFFECT THE INITIAL SEEDLINGS GROWTH AND NUTRIENT ACCUMULATION IN Khaya senegalensis A. JUSS

Propagation of Khaya Anthotheca: Interspecific Grafting With Swietenia Macrophylla and Air Layering

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