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The constituents of the extractives from ponderosa pine bark (Pinus ponderosa, Laws.) /Hubbard, James Kenneth. January 1950 (has links)
Thesis (Ph. D.)--Oregon State College, 1950. / Typescript. Includes bibliographical references (leaves 56-58). Also available on the World Wide Web.
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Variation in radial growth patterns and specific gravity of red pine (pinus resinosa Ait.)Peterson, Theodore A. January 1967 (has links)
Thesis (Ph. D.)--University of Wisconsin, 1967. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliography.
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Biology of bluestain in the context of modern forestryUzunovic, Adnan January 1997 (has links)
No description available.
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Improvements in stability, durability and mechanical properties of radiata pine wood after heat-treatment in a vegetable oilDubey, Manoj Kumar January 2010 (has links)
Radiata pine is a major plantation grown wood in the Southern hemisphere, but has inferior dimensional stability and low durability compared to other commercial species and the improvement of these features is the focus of this thesis.
Specifically this thesis examines the dimensional stability, durability and mechanical properties of radiata pine after heat-treatment (160-210°C) in linseed oil. Changes in colour, micro-structure and chemistry with heat-treatment were studied. To optimise the treatment results, oil heat-treatment of wood was also carried out after thermo-mechanical compression of wood and the effect of the prior thermo-mechanical compression on stability, durability and mechanical properties were examined.
The oil heat-treated wood turned uniformly darker in colour. The hydrophobicity (Water Repellence Efficiency-WRE up to 30%), dimensional stability (Ant-Swelling Efficiency-ASE up to 60%) and fungal resistance (up to 36%) were improved with the extent of the changes mainly depending on treatment temperature. However, the mechanical properties of oil heat-treated wood were reduced compared to the untreated control group. Accelerated UV weathering tests have shown that the oil heat-treated wood retained its colour and dimensional stability better than the untreated wood (the control group).
The cell wall of treated wood was intact and no distinct structural changes were observed even at the most severe treatment (210°C for 6 hrs).The treatment resulted in changes to the wood chemical constituents, mainly the degradation of hemicelluloses which is believed to be principal reason for alterations in wood properties.
A study of the effect of prolong heating on the linseed oil showed an increase in viscosity with heating time which in turn reduced the oil uptake and water repellency of treated wood. However, no significant difference in the colour and dimensional stability of the treated wood was noticed with oil of different heating ages. Oil absorbed by the wood during heat treatment was removed by organic solvent extraction and its contribution to the weight percentage change and moisture related properties were evaluated. The oil uptake percentage, determined by organic solvent extraction, was greater than the weight percentage loss that was deduced to occur during the heat treatment phase, which was attributed to mass losses or thermal degradation of wood constituents. Moisture excluding efficiency decreased after removal of the oil from treated wood, which suggested that the hydrophobicity of treated wood is affected by oil absorbtion. The influence of the post-treatment cooling period on properties of treated wood was studied separately. Oil uptake increased substantially with the post-treatment cooling time which in turn affected the hydrophobicity of treated wood although this effect was less important to dimensional stability.
The loss of mechanical properties due to heat-treatment was successfully countered by thermo-mechanical compression of wood prior to the oil heat-treatment. The wood was compressed to 39% of its original thickness without any visible surface checks and cracks. Spring back and compression set recovery in densified wood decreased after oil heat-treatment. This combination treatment also resulted in improved fungal resistance compared to untreated wood.
From this research, it is concluded that oil heat-treatment of radiata pine wood can improve its dimensional stability and durability obviating the need to introduce any persistent toxic chemicals. Thermo-mechanical densification of wood prior to oil heat-treatment can countered the loss of mechanical properties due to heat-treatment. The heating oil can be re-used in subsequent treatments and oil uptake can be minimised by limiting the post-treatment cooling time without any significant effect on the dimensional stability of treated wood.
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Durabilidade da madeira do gênero Pinus tratada com preservantes: avaliação em campo de apodrecimento. / Durability of preservative treated Pinus lumber: evaluation through field stake test.Barillari, Cristiane Tabarelli 13 May 2002 (has links)
A madeira quando usada em contato direto com o solo, é atacada por agentes biológicos, principalmente fungos apodrecedores e cupins subterrâneos. Uma maneira de ampliar as possibilidades de utilização das espécies de baixa durabilidade natural, como as do gênero Pinus, é através do tratamento químico preservante. No entanto, faltam informações disponíveis que indiquem a durabilidade destas madeiras em serviço. A fim de se determinar a durabilidade da madeira do gênero Pinus tratada com preservantes, a Escola Superior de Agricultura "Luiz de Queiroz" e o Instituto Florestal do Estado de São Paulo instalaram, em 1980, campos de apodrecimento segundo método de ensaio sugerido pelo IUFRO (International Union of Forestry Research Organizations). As espécies utilizadas no ensaio foram o Pinus elliottii Engl. var. elliottii, o Pinus caribaea Mor. var. hondurensis, B & G., o Pinus oocarpa Shied e o Pinus kesiya Royle ex Gordon; tratadas com os preservantes CCA tipos A, B e C, CCB e pentaclorofenol, em cinco níveis de retenção. Em continuidade ao projeto, foi inspecionado o campo instalado na Estação Experimental de Mogi-Guaçu, visando avaliar o estado de sanidade do material. A análise dos resultados obtidos até o momento, 21 anos de exposição demonstrou que não houve diferença no comportamento entre espécies. Os índices de comportamento mais altos (maior expectativa de durabilidade) correspondem aos tratamentos com CCA tipos A, B e C em retenções acima de 7,5 kg/m3. Mesmo para os tratamentos que apresentaram os menores índices de comportamento (CCA tipo C com retenções de 5,0 kg/m 3 e CCB com 5,9 kg/m 3 ), é prevista uma durabilidade de 30 anos em serviço. / When used in ground contact, wood is deteriorated by biological agents, as root fungi and subterranean termites. A way to increase the use of wood species of low natural durability, as the Pinus lumber, is the preservative treatment. However, there is a lack of information indicating the durability of treated wood. In order to determine the durability of preservative treated Pinus lumber, the Escola Superior de Agricultura "Luiz de Queiroz" and the Instituto Florestal do Estado de São Paulo installed, in 1980, fields tests according to the IUFRO (International Union of Forestry Research Organizations). The species under test were Pinus elliottii Engl. var. elliottii, Pinus caribaea Mor. var. hondurensis, B & G., Pinus oocarpa Shied and Pinus kesiya Royle ex Gordon; treated with the preservatives CCA types A, B and C, CCB and pentachlorophenol, in five retention levels. In continuity to the project, the material installed in the test site of Experimental Station of Mogi-Guaçu was inspected, to evaluate the degree of attack. The analysis of results obtained till now, after 21 years of exposure, demonstrated that there are no differences in durability related with species. The highest performance index (longer durability expectation) correspond to treatments with CCA types A, B and C in retentions above 7,5 kg/m3. Even for the treatments that presented lowest performance index (CCA type C with retention of 5,0 kg/m 3 and CCB with 5,9 kg/m 3 ), the durability expectation is 30 years in service.
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Prescribed fire in a ponderosa pine stand in the Blue Mountains, Oregon : relationships among post-fire scolytidae incidence, delayed tree mortality, snag decay dynamics, and woodpecker snag use /Kangas, Michael. January 2002 (has links)
Thesis (M.S.)--Oregon State University, 2003. / Typescript (photocopy). Includes bibliographical references (leaves 85-92). Also available online.
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Durabilidade da madeira do gênero Pinus tratada com preservantes: avaliação em campo de apodrecimento. / Durability of preservative treated Pinus lumber: evaluation through field stake test.Cristiane Tabarelli Barillari 13 May 2002 (has links)
A madeira quando usada em contato direto com o solo, é atacada por agentes biológicos, principalmente fungos apodrecedores e cupins subterrâneos. Uma maneira de ampliar as possibilidades de utilização das espécies de baixa durabilidade natural, como as do gênero Pinus, é através do tratamento químico preservante. No entanto, faltam informações disponíveis que indiquem a durabilidade destas madeiras em serviço. A fim de se determinar a durabilidade da madeira do gênero Pinus tratada com preservantes, a Escola Superior de Agricultura "Luiz de Queiroz" e o Instituto Florestal do Estado de São Paulo instalaram, em 1980, campos de apodrecimento segundo método de ensaio sugerido pelo IUFRO (International Union of Forestry Research Organizations). As espécies utilizadas no ensaio foram o Pinus elliottii Engl. var. elliottii, o Pinus caribaea Mor. var. hondurensis, B & G., o Pinus oocarpa Shied e o Pinus kesiya Royle ex Gordon; tratadas com os preservantes CCA tipos A, B e C, CCB e pentaclorofenol, em cinco níveis de retenção. Em continuidade ao projeto, foi inspecionado o campo instalado na Estação Experimental de Mogi-Guaçu, visando avaliar o estado de sanidade do material. A análise dos resultados obtidos até o momento, 21 anos de exposição demonstrou que não houve diferença no comportamento entre espécies. Os índices de comportamento mais altos (maior expectativa de durabilidade) correspondem aos tratamentos com CCA tipos A, B e C em retenções acima de 7,5 kg/m3. Mesmo para os tratamentos que apresentaram os menores índices de comportamento (CCA tipo C com retenções de 5,0 kg/m 3 e CCB com 5,9 kg/m 3 ), é prevista uma durabilidade de 30 anos em serviço. / When used in ground contact, wood is deteriorated by biological agents, as root fungi and subterranean termites. A way to increase the use of wood species of low natural durability, as the Pinus lumber, is the preservative treatment. However, there is a lack of information indicating the durability of treated wood. In order to determine the durability of preservative treated Pinus lumber, the Escola Superior de Agricultura "Luiz de Queiroz" and the Instituto Florestal do Estado de São Paulo installed, in 1980, fields tests according to the IUFRO (International Union of Forestry Research Organizations). The species under test were Pinus elliottii Engl. var. elliottii, Pinus caribaea Mor. var. hondurensis, B & G., Pinus oocarpa Shied and Pinus kesiya Royle ex Gordon; treated with the preservatives CCA types A, B and C, CCB and pentachlorophenol, in five retention levels. In continuity to the project, the material installed in the test site of Experimental Station of Mogi-Guaçu was inspected, to evaluate the degree of attack. The analysis of results obtained till now, after 21 years of exposure, demonstrated that there are no differences in durability related with species. The highest performance index (longer durability expectation) correspond to treatments with CCA types A, B and C in retentions above 7,5 kg/m3. Even for the treatments that presented lowest performance index (CCA type C with retention of 5,0 kg/m 3 and CCB with 5,9 kg/m 3 ), the durability expectation is 30 years in service.
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Pušinių stiebinių nematodų (Bursaphelenchus sp.) paplitimas Lietuvoje / Distribution of pine wood nematodes Bursaphelenchus sp. in LithuaniaKučinskas, Vaclovas 14 June 2005 (has links)
Objective – research the pine wood nematodes Bursaphelenchus sp. situation in Lithuania.
Goals:
1. Research of native pine wood nematode species composition in Lithuania;
2. Research of preconditions for harmful pine wood nematode species to enter Lithuania;
3. Research of conditions for non-native pine wood nematode species to establish, breed and spread;
4. Research of consequences if harmful species becomes established in Lithuania, anticipate pest management options.
Object of the study – coniferous (pine) forests in Lithuania and companies, processing imported wood.
Methods. Samples were taken in coniferous clearcuts and wood processing companies from the stained wood or wood with evidence of Monochamus activities. Nematodes were extracted sing Baermann method. Preconditions for nematodes to enter Lithuania, establish and spread were analysed using statistical and literature sources. Strengths, weaknesses, opportunities, threats (SWOT) analysis was applied to the situation of Bursaphelenchus in Lithuania.
Results. 27 forest enterprises and 62 wood processing companies were studied. For the first time in Lithuania non-pathogenic species Bursaphelenchus mucronatus was found. Assessement of conditions for wood nematodes in the country (import assortment and volume, countries, host plants and potential vectors), real probability for harmful species, particularly Bursaphelenchus xylophilus, to enter, establish and spread was defined. Existing quarantine system might... [to full text]
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Painéis sanduíche com faces de placas de fibrocimento e núcleo de painéis de partículas de subprodutos agroindustriais / Sandwich panels with faces of fiber-cement flat sheets and particleboard core of agro-industrial by-productsPereira, Alexandre Rosim 26 April 2019 (has links)
O presente trabalho propôs o estudo de desempenho de painéis sanduíche formados por núcleo de painéis de partículas de fibras da casca de coco verde e de madeira pinus, Pinus sp., conformado por placas de fibrocimento de forma a produzir um compósito com propriedades associadas. Os painéis sanduíche foram avaliados por ensaio físico e mecânico, determinaram-se a densidade média de cada tratamento e as tensões de face e núcleo dos painéis sanduíche. Termicamente foram avaliados por equações analíticas e analisados por requisitos normativos. Inicialmente foram analisadas as propriedades físicas das matérias primas e dos componentes das faces e do núcleo. A placa de fibrocimento que compôs as faces foi analisada por ensaios físicos, mecânicos e térmico. Os resultados das propriedades foram comparados com referências normativas e de empresas que fabricam e avaliam produtos de fibrocimento similares. Para a produção dos painéis aglomerados de partículas que formaram os núcleos utilizou-se a fibra da casca de coco verde, Cocos nucifera, em substituição parcial as partículas de madeira pinus, Pinus sp., na proporção de 30 % e 70% respectivamente. O adesivo utilizado nos painéis de subprodutos da agroindústria foi a resina poliuretana bicomponente à base de óleo de mamona. Foram produzidos e avaliados painéis com três densidades, sendo 350 kg/m3 (baixa), 600 kg/m3 (média) e 850 Kg/m3 (alta). Os painéis de partículas foram avaliados por ensaios físicos, mecânicos e térmico. Como parâmetro de comparação de resultados um painel comercial de média densidade MDP foi avaliado da mesma forma. Os resultados dos testes de todos componentes e dos painéis sanduíches produzidos, foram comparados e analisados em atendimento às normas que os regem e com produtos comercializados nos setores da construção civil. A partir dos resultados concluiu-se que os painéis sanduíche com núcleo de subprodutos da agroindústria apresentaram propriedades similares ao painel sanduíche com núcleo de MDP comercial e aos painéis sanduíche de vedação produzido por empresas da indústria da construção civil. O estudo demonstrou a potencialidade técnica da possível aplicação do painel sanduíche como componente ou elemento em sistemas construtivos na construção civil. / The present work proposes the study of sandwich panel performance formed by homogeneous particleboard panels of green coconut shell fibers and pinus wood particles, coated with nonasbestos cement flat sheets in order to produce a composite with associated properties. The sandwich panel was evaluated by physical and mechanical tests. The physical test determined the density mean of each treatment, and the mechanical test obtained the sandwich panels face and core tensions, thermally was evaluated by analytical equations and analyzed by standards requirements. Firstly, the physical properties of the raw materials of the facings and cores were analyzed according to the standard requirements. The fiber cement board that composed the faces was tested in physical, mechanical and thermal tests. The results of the properties tested were compared with references of technical standards and manufactured similar industrial products in accordance with current standards for cementitious products. For the production of the panels, the fiber of the green coconut shell, Cocos nucifera, was used in partial substitution of the pine wood particles, Pinus sp., in the proportion of 30% and 70% respectively. The adhesive used in the panels of agro-industry by-products was the bicomponent resin based on castor oil. Panels with densities ranging from low 350 kg/m3, medium 600 kg/m3 and high 850 kg/m3 were produced. The particleboards were evaluated by mechanical, physical and thermal tests. As a parameter of comparison of results a MDP medium density commercial panel (density between 551 Kg/m3 and 750 kg/m3) was tested in the same conditions. The results of the tests of all constituent components and the sandwich panels and were compared and analyzed in compliance with the current standards and commercial products market in the construction sectors. The results concluded that the sandwich panel particleboard core made by-products of agro-industry presented similar properties of the sandwich panel of commercial MDP core and those from construction industrial products. The study demonstrated that the technical capability of the possible application of the sandwich panel as a component or element in constructive systems of the civil construction.
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Influence of wood on the pyrolysis of poultry litterMante, Nii Ofei Daku 21 October 2008 (has links)
Pyrolytic oils produced from poultry litter differ in physico-chemical properties and the chemical composition. The litter is composed of manure and bedding material with traces of spilled feed and feathers. The type and amount of bedding material was varied to investigate its influence on the pyrolysis of layer manure. 400g of each feedstock: manure, wood (pine and oak), and mixtures of manure and wood in proportions (75:25 50:50, and 25:75 w/w %) respectively were subjected to fast pyrolysis at 450oC in a fluidized bed reactor. The total pyrolytic oil yield ranged from 43.3% to 64.5 wt%. The highest bio oil yield and the lowest char yield were obtained from oak wood. The manure oil had the highest HHV of 29.7 MJ/kg, the highest pH (5.89), the lowest density (1.14 g/cm3) and a relatively low viscosity of 130cSt. The oils had relatively high nitrogen content ranging from 5.88wt% to 1.36 wt%; low ash content (approximately <0.07wt %) and low sulfur content (<0.28wt %). FT-IR, 13CNMR, and 1HNMR analysis showed that manure oil was rich in aliphatic hydrocarbon and primary and secondary amides and the addition of wood introduced oxygenated compounds like aliphatic alcohols, phenols, aromatic ethers, and carbonyl/carboxylic groups into the oil. TG/DTG analysis also showed that the thermal decomposition of the oils were different depending on the amount and the type of wood in the manure/wood mixture.
The parametric variables used for the mixture of 50% manure and 50% pine wood shavings study were; temperature (400-550°C), nitrogen gas flow rate (12-24 L/min), and feed rate (160-480 g/h). The results showed that the pyrolysis product yields, physical properties and the chemical composition of the oil were influenced by all parameters. Temperature was the most influential factor and its effect on the liquid, char and gas yields were significant. It was evident that depending on the gas flow rate and the feed rate, a maximum oil yield (51.1wt.%) can be achieved between 400-500 oC. Also an increase in temperature significantly increased the oil viscosity and decreased the carbonyl/carboxylic and the primary aliphatic alcohol functional groups in the oil.
The study on the influence of wood on the stability of the oils when stored at ambient conditions for 8 months in a 30ml glass bottle showed that the viscosity of the oils increases when stored, however the manure oil was relatively more stable and the oil from the 50/50 mixture for both pine and oak was the least stable. It was found that the stability of the oils from the manure and wood mixtures were dependent on the amount and the type of wood (pine or oak) added to the manure. Also the addition of 10% solvent (methanol/ethanol) to the oil from 50% manure and 50% pine reduced the initial viscosity of the oil and was also beneficial in slowing down the increase in viscosity during storage. / Master of Science
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