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以市售刨花板和三聚氰胺浸渍纸为原料,制备三聚氰胺饰面刨花板.采用L9(34)正交试验考察热压温度、热压时间、热压压力3个热压工艺参数对三聚氰胺板甲醛释放量的影响.采用国家标准(GB/T 17657-1999)《人造板及饰面人造板理化性能试验方法》干燥器法检测甲醛的释放量.试验结果表明,热压温度对甲醛释放量影响最大、热压时间其次、热压压力影响最小,其中热压温度对甲醛释放量有显著影响,热压时间和热压压力的影响并不显著.热压工艺参数提高,会引起热压后的三聚氰胺板前期的甲醛释放量明显升高.确定饰面刨花板甲醛低释放的最优化生产工艺参数为热压温度170℃、热压时间40s、热压压力2.5 MPa. 相似文献
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Preparation of liquefied wood-based resins and their application in molding material 总被引:9,自引:0,他引:9
Zhang Qiu-hui Zhao Guang-jie Yu Li-li Jie Shu-jun 《中国林学(英文版)》2007,9(1):51-56
To investigate value in use of liquefied wood-based resin applications in molding material, Chinese fir (Cunninghamia lanceolata) and poplar (Populus tomentosa) wood meal were liquefied in phenol. The reactant was co-condensed with formaldehyde to obtain liquefied wood-based resin. For this paper, we investigated the characterization of the resin and its application in molding material. The result shows that the basic properties of liquefied wood-based resin were satisfactory; the bonding strength of plywood prepared with liquefied Chinese fir and liquefied poplar resin can reach 1.54 and 1.00 MPa, respectively. The compression strengths of the molding material prepared with two kinds of liquefied wood resin were 73.01 and 73.58 MPa, almost the same as that of PF resin molding material. The limiting volume swelling of molding material made with liquefied Chinese resin and liquefied poplar resin were 8.5% and 8.3%, thickness swelling rates of water absorption were 3.3% and 4.2%, and the maximum weight ratios of water absorption were 25.9% and 26.2%, respectively. The soil burial test result shows that the weight loss rate of the molding materials made with liquefied Chinese resin and liquefied poplar resin were 8.3% and 9.1% and that of the PF resin molding material was 7.9%. After the soil internment test, the reduction ratio of compression strength of the two kinds of molding material achieved 16.9% and 17.7%, while that of the PF resin molding material was 15.4%. The test results of wood fungi inoculation on the three surfaces of the molding material indicate the breeding rate of molding material prepared with liquefied Chinese resin and liquefied poplar resin were at level 4 and that of PF resin molding material was at level 1 of the ISO standard. 相似文献
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Influence of the melamine content in melamine-urea-formaldehyde resins on formaldehyde emission and cured resin structure 总被引:6,自引:0,他引:6
The effect of melamine content in melamine-urea-formaldehyde (MUF) resins on the formaldehyde emission and resin structure was investigated using six MUF resins synthesized with different F/(M + U) and M/U molar ratios. The formaldehyde emission from the plywood decreased as the F/(M + U) molar ratio decreased and the M/ U molar ratio increased. In addition, the bond performance was enhanced as the M/U molar ratio increased in the MUF resins with a fixed F/(M + U) molar ratio. Quantitative solution13C-NMR spectra of MUF resins revealed that the MUF resins with a high melamine content consisted of more highly branched crosslinkage structure and free melamine compared to the resins with low melamine contents. Furthermore, solid-state13C CP-MAS NMR spectra of cured MUF resins proved that more methylol groups, dimethylene ether, and branched methylene structures were present in the MUF resins with a higher F/(M + U) molar ratio, leading to increased bond strength and formaldehyde emission. There is no significant difference in the linkage structure of the cured resins with the same F/(M + U) and different M/U molar ratios except the ratios of carbonyl carbon of urea and triazine carbon of melamine. Therefore, the lower formaldehyde emission from cured MUF resins with a higher M/U molar ratio might be ascribed to the stronger linkages between triazine carbons of melamine than those of urea carbons. Consequently, the melamine contributed to strong crosslinking linkages in the cured resin structures, leading to lower formaldehyde emission and better bond performance.Part of this work was presented at the 48th Annual Meeting of the Japan Wood Research Society, Shizuoka, April 1998 相似文献
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Wen-Yu Su Subyakto Toshimitsu Hata Koei Nishimiya Yuji Imamura Shigehisa Ishihara 《Journal of Wood Science》1998,44(2):131-136
A practical approach to enhancing the fire retardancy of wood-based materials by adding fire-retardant chemicals to the glue was developed. Plywoods were manufactured using urea melamine formaldehyde resin mixed with ammonium pentaborate or dihydrogen phosphate. Treated plywoods had better incombustibility than untreated ones. X-ray photoelectron spectroscopy (XPS) analysis clearly demonstrated the distribution of boron and phosphorus, which had migrated from the glue to the wood, contributing to better fire retardant properties. The cross-sectional micrographs from scanning electron microscopy showed that untreated specimens exhibited a foamy structure near the interface in the glue layer and the deformed structure of wood cells. The cell structure and cell wall thickness retained intact in the specimens treated with urea melamine formaldehyde resin mixed with ammonium pentaborate or dihydrogen phosphate. When observing the effect of the thickness of overlay veneers on incombustibility, a shorter glowing time was obtained from the specimens with a thicker surface layer when the fire retardant chemical was added at 2%, but the differences were smaller at the higher chemical retention of 4%. A similar tendency was observed for the char length.Part of this paper was presented at the International Tropical Wood Conference in Kuala Lumpur, Malaysia, June 1997 相似文献
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Zhang Qiu-hui Zhao Guang-jie Hu Shi-yu 《中国林学(英文版)》2005,7(2):38-42
Wood of Chinese fir and poplar were liquefied in phenol at 150℃ and atmospheric pressure. The liquefied wood were reacted with formaldehyde to synthesize the liquefied wood-based resin. The factors affecting the resinification and the properties of new resin were investigated. The results show that the formaldehyde/liquefied wood molar ratio, reaction temperature, reaction time and sodium hydroxide/liquefied wood molar ratio have important influence on the resin characteristics. With the increase of formaldehyde/liquefied wood molar ratio, the yield of resin increases, and the flee phenol content of resins decreases, showing that the resinification of liquefied wood is more complete at higher formaldehyde/liquefied wood molar ratios. The reaction temperature on the viscosity of the liquefied resin has considerable effect; the viscosity of resin increased with increasing reaction temperature, and the amount of liquefied poplar resin increased more quickly than that of liquefied Chinese fir resin. The resinification time also has obvious influence on the viscosity of resin; the viscosity of liquefied poplar resin is more sensitive to resinification time compared with that of liquefied Chinese fir. The amount of sodium hydroxide can improve the water miscibility of liquefied wood resin. The optimum sodium hydroxide/liquefied wood molar ratio for preparation of liquefied wood-based resins exceeds 0.4. 相似文献
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Christian Hansmann Günther Weichslberger Wolfgang Gindl 《Wood Science and Technology》2005,39(6):502-511
A combination of bulk and surface modification of wood could lead to a product that shows the advantages of both treatments.
This study evaluates the penetration of melamine resin into acetylated and silylated cell walls and possible side effects
of melamine impregnation on this bulk treatment in order to clarify the feasibility of a combination of the chosen bulk modification
(acetylation or silylation) and surface treatments (hardening by melamine modification). UV microscopy confirmed that melamine
resin penetrates into wood cell walls even after acetylation and silylation treatment. Energy dispersive X-ray analysis showed
that the melamine treatment did not lead to substantial washing out of silyl groups with the silylation reagent used. The
possibility of a combination of the selected bulk and surface modification methods is given. 相似文献
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Hamidreza Edalat Mehdi Faezipour Volker Thole Frederick A. Kamke 《Wood Science and Technology》2014,48(4):703-712
The importance of adhesion in production of wood-based composites is well-known. Adhesive penetration and interphase morphology play an important role in bond strength and product performance. Many studies offered different methods for interphase characterization and analysis. Both qualitative and quantitative methods have been used to analyze the bondline. Most of the quantitative methods were developed for bonded assemblies of veneer or wood blocks. Adhesive penetration measurement in particulate wood-based composites is the main scope of this study. For this purpose, uniform oriented strand board with veneer strands was produced by the use of phenol formaldehyde resin with 2, 6, and 10 % strand moisture content (MC). The strands were formed into well-organized mats to achieve a uniform structure for the composite. Cross-section specimens were prepared from each board and observed by epifluorescence microscopy. Six positions for growth-ring angle in adhesive joints were denoted to evaluate penetration in different directions of the wood. Four parameters were also determined to quantify resin penetration patterns by counting the quantity of the main anatomical elements of wood, which were filled with resin. Finally, it was determined that this method could recognize the differences between adhesive penetration in boards produced with different level of strand MC. Resin penetration in strands with 6 and 10 % MC was the greatest. Growth-ring angle of the strands influenced penetration as it was increased when both strands meet each other in an oblique position, although this effect was significant only in maximum penetration depth in fibers. 相似文献
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A conductive and corrosion-resistant wood-based composite was obtained via electroless Ni–W–P plating on birch veneers. The W content of the Ni–W–P coatings obtained under different Na2WO4 concentrations in the plating bath was analyzed. The crystal structure, surface morphology, electrical resistivity, electromagnetic shielding effectiveness, surface wettability, adhesive strength and corrosion resistance of the composite were investigated. Energy-dispersive spectroscopy and X-ray photoelectron spectroscopy results showed that the coating consisted mainly of Ni0, Mo0 and P0 doped with little of their oxides. X-ray diffractometry analysis suggested the obtained coatings contained a nanocrystalline structure. Scanning electron microscopy images showed that the veneer surfaces were covered with uniform and continuous coatings. Birch veneers plated with Ni–W–P alloy exhibited good electrical conductivity with surface resistivity below 200 mΩ/cm2 and shielding effectiveness above 35 dB from 9 kHz to 1.5 GHz. Ni–W–P films firmly adhered to the wood surface. Water contact angle of the composite reached about 130° indicating the hydrophobic surface. The Ni–W–P-plated veneers showed excellent corrosion resistance due to the polarization resistance above 3.1 kΩ/cm2. This study further provides a new method for fabricating multifunctional wood-based composites. 相似文献
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Fire retardancy of melamine-modified urea–formaldehyde resin (MUF) containing intumescent fire-retardant ammonium polyphosphate (APP) (MUF/APP) was conducted by cone calorimeter with surface treatment of medium density fiberboard (MDF). The results showed that the six MUF resins synthesized with different F/(M + U) and M/U molar ratios containing APP significantly improved the fire retardancy of the MDF by prolonging ignition time, reducing heat release rate and total heat release, and decreasing mass loss rate. The fire-retardant properties of the six synthesized MUF/APP acted differently even though each MUF resin containing the same mass ratio of APP. The melamine content in the MUF should not be too high, otherwise it would decrease the fire-retardant properties of MUF/APP. Based on this study, the higher the APP amounts, the better the fire-retardant performance of the resin was. The fire retardancy of MUF/APP increased with the increase in the amount of glue that spread on the material surface. However, only the amount of glue spread exceeded 250 g/m2, whereas the ability of MUF/APP in inhibiting heat release did not increase significantly any longer. 相似文献
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At present tapped wood of black pines (Pinus nigra var. austriaca) is mainly combusted. The priority of material use over thermal recycling has led to some considerations regarding the utilization of tapped wood. The high content of extractives suggests a higher natural durability, and therefore, the suitability for outdoor applications. Tapped and not tapped wood boards from black pine (sapwood and heartwood) were subjected to weathering tests to find out its resistance against abiotic stress. Additionally tapped wood particles with a high content of resin were exposed to weathering and to composting. Weathering caused roughness to increase. Infrared spectral characteristics revealed the differences before and after tapping and weathering. Principal component analyses supported the grouping according to the chemical changes. In heartwood the lignin band at 1510 cm??1 disappears and the typical resin band at 1688 cm??1 decreases considerably. The lignin band of resinous parts is affected neither by weathering nor by composting. However, the resin band shows an intensity decrease and broadening due to weathering and disappears during composting. 相似文献
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国外人造板甲醛散发研究现状 总被引:16,自引:0,他引:16
本文根据大量的国外文献资料综述了人造板中游离甲醛产生的原因、甲醛散发量的定量测试方法、影响甲醛向外界散发的诸种因素以及降低人造板甲醛散发量的各种措施。 相似文献
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In order to reduce the density of wood-based composites without causing a deterioration of their mechanical properties, we
studied the process of manufacturing wood-based composites. A combination of polymer foaming technology and flat hot-pressing
technology was used. The microscopic structure of the various wood-based composites was analyzed with a scanning electron
microscope (SEM). Modulus of rupture (MOR), modulus of elasticity (MOE), impact strength, and thickness expansion rate of water sorption (TS) were all measured. The results showed that fibers loosely interweave, and fibers had been connected by micropore. They also
showed that spaces between fibers had big micropore structure. MOR, MOE and impact strength were the highest among three levels of ratio. When the total content of resin and foaming agent were
20% by weight, TS was higher. A hot-pressing temperature of 120°C was optimal. At the low temperatures of 80°C, the foaming process was uncompleted.
At a higher temperature, micropores burst at a certain pressure. Based on the variance analysis and maximum difference analysis,
a significance test shows that the optimum conditions for the total content of resin and foaming agent is 20% by weight, with
a hot pressing temperature of 120°C for 15 min. Under these conditions, the properties of wood-based foaming composites all
achieved the industry standard.
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Translated from Journal of Beijing Forestry University, 2007, 29(3): 154–158 [译自: 北京林业大学学报] 相似文献
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LIU Zhi CAO Jinzhen.College of Material Science Technology Beijing Forestry UniversityBeijing P. R. China.Department of Wood Science Engineering Hebei Agriculture UniversityBaoding P. R. China 《中国林业科技(英文版)》2006,5(1):14-20
INTRODUCTIONWood-based composites are widely used as woodindustry is developing rapidly. It is quite necessary toimprove the decay resistance of wood-basedcomposites with preservatives or protect them in othermethods to meet the durability requirements. Therefore,many investigations are conducted in this field. Thispaper summarizes the previous and presentinvestigations on the methods of preservative treatmentand the decay resistance of different categories oftreated wood-based composites… 相似文献