Mineral Based Boards Made from Lignocellulosic Wastes. Part 2. Chemical and Technological Properties

H. Şahin, O. Yalcin, A. Kaya
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Abstract

The aim of this study was to investigate experimental panels produced from mixture of agriculture wastes with mineral adducts under synthetic adhesive bonding process. In this respect, the effects of the two different mineral loading as reinforced additive (olivine and dolomite) in lignocellulosic matrix (agricultural residue of tomato- and eggplant stalk chips) system were investigated. The highest heat conductivity value of l: 0.461 W/mK and 0.449 W/mK was found on panels that made only from tomato stalk- and eggplant stalk chips (controls) while lowering effects were found when dolomite and olivine added to matrix at various proportions. But all heat conductivity value were found to be lower than standard value (l: <0.065 W/mK). However, all the experimental panels show the burning pattern on the surfaces which char did not reach the 150 mm threshold limit, regardless of board formulations or experimental conditions. It could be proposed that proportions of olivine and dolomite as reinforcing element in lignocellulosic matrix have a lowering effects on flame spreading at certain extent. It is notable that mass loss (%) properties of samples were found to be quite different from the insulation values. For dolomite-based panels, the lowest mass loss values were found to be 8.83% and 9.97% for boards prepared from similar proportion (1:1, w/w, %) of dolomite-tomato stalk chips (XTV) and dolomite-eggplant stalk chips (XEV), respectively. For dolomite-based panels, the lowest mass loss of 6.79% and 9.11% were found to be boards produced from 30% tomato stalks chip and 70% olivine (YTIII), 60% eggplant stalk chip and 40% olivine in mixture proportions (YEIV), respectively. It is realized that the panels produced with mineral additives show higher degradation temperature with less mass loses (%, w/w) than controls. These are clear evidence that the presence of dolomite and olivine with lignocellulosic matter make panels more durable against fire and significantly reduces the mass loss. The FTIR spectra show characteristic spectrum of lignocellulose structure concentrate in the range of 800–3500 cm-1 and the major peaks in that range had been identified.
由木质纤维素废料制成的矿物基板。第2部分。化学及工艺性能
本研究的目的是研究农业废弃物与矿物加合物的混合物在合成粘合剂粘合工艺下生产的实验板。在此方面,研究了两种不同矿物作为增强添加剂(橄榄石和白云石)在木质纤维素基质(番茄和茄子茎片的农业残留物)体系中的作用。仅用番茄秸秆片和茄子秸秆片(对照)制成的面板导热系数最高,分别为0.461 W/mK和0.449 W/mK,而在基质中加入不同比例的白云石和橄榄石均有降低导热系数的作用。但热导率均低于标准值(l <0.065 W/mK)。然而,无论板的配方或实验条件如何,所有的实验板在焦炭未达到150mm阈值限制的表面上都显示出燃烧模式。可见,在木质纤维素基质中加入橄榄石和白云石作为补强元素,在一定程度上对火焰蔓延有一定的抑制作用。值得注意的是,样品的质量损失(%)特性与绝缘值有很大的不同。以相同比例(1:1,w/w, %)的白云石-番茄茎片(XTV)和白云石-茄子茎片(XEV)制备的白云石基板的最低质量损失值分别为8.83%和9.97%。在白云石基板材中,以30%番茄秸秆片和70%橄榄石(YTIII)、60%茄子秸秆片和40%橄榄石混合(YEIV)制成的板材质量损失最低,分别为6.79%和9.11%。结果表明,与对照组相比,添加矿物添加剂的面板具有更高的降解温度和更小的质量损失(%,w/w)。这些都是明确的证据,表明白云石和橄榄石与木质纤维素物质的存在使面板更耐用,并显著减少质量损失。FTIR光谱在800 ~ 3500 cm-1范围内显示了木质纤维素结构浓缩物的特征光谱,并确定了该范围内的主要峰。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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