Dataset on mechanical, thermal and structural characterization of plant fiber-based biopolymers prepared by hot-pressing raw coconut coir, and milled powders of cotton, waste bagasse, wood, and bamboo

Mohammed Abdullah Hamad Alharbi; Shinji Hirai; Hoang Anh Tuan; Shota Akioka; Wataru Shoji

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Dataset on mechanical, thermal and structural characterization of plant fiber-based biopolymers prepared by hot-pressing raw coconut coir, and milled powders of cotton, waste bagasse, wood, and bamboo

机译：通过热压原料椰子益官的植物纤维基生物聚合物的机械，热和结构表征的数据集，棉花，废物甘蔗渣，木材和竹子碾磨粉末

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This article presents experimental data on visual, mechanical, thermal, and structural characterization by hot-pressing four sources of milled plant powders and coconut fibers. It correlates chemical composition obtained by (FTIR), particle size, and reports bending strength, water resistance morphological (SEM) and thermal stability, structural properties (FTIR and XRD). It further supplements findings of the influence of microfibrillation and chemical composition on hot-pressing plant fibers as presented in the research article “Effects of Chemical Composition, Mild Alkaline Pretreatment and Particle Size on Mechanical, Thermal, and Structural Properties of Binderless Lignocellulosic Biopolymers Prepared by Hot-Pressing Raw Microfibrillated Phoenix Dactylifera and Cocos Nucifera Fibers and Leaves” [1]. For more insights into the difference among non-lignin-, lignin-, and semi lignin-based adhesion refer to the research article [1]. This dataset is made publicly available for potential reuse in recycling agricultural waste fibers for value-added materials.

机译：本文通过热压四种铣削植物粉末和椰子纤维来介绍视觉，机械，热和结构特征的实验数据。它将通过（FTIR），粒度和报告弯曲强度，防水形态（SEM）和热稳定性，结构性能（FTIR和XRD）提供的化学成分相关。进一步补充了微纤维和化学成分对研究制品中的热压植物纤维的影响的结果“化学成分，轻度碱性预处理和粒度对机械，热和结构性能的影响，粘合剂或颗粒尺寸热压原料微纤细凤凰丁糖和椰子核苷酸和叶子[1]。对于更多关于非木质素，木质素和半木质素的粘附性的差异有更多的见解，请参阅研究制品[1]。该数据集公开可用于回收利用增值材料的农业废纤维中的潜在重用。

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《Data in Brief》 |2020年第2期|共12页
作者
Mohammed Abdullah Hamad Alharbi; Shinji Hirai; Hoang Anh Tuan; Shota Akioka; Wataru Shoji;
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Lignocellulosic biopolymerHot pressingMicrofibrillated biomass wasteLignin bindingNon-lignin binding;

机译：木质纤维素生物聚糖压制MiCrofibrillated Biomass Wastelignin结合NON-LIGNIN结合;

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1. Effects of chemical composition, mild alkaline pretreatment and particle size on mechanical, thermal, and structural properties of binderless lignocellulosic biopolymers prepared by hot-pressing raw microfibrillated Phoenix dactylifera and Cocos nucifera fibers and leaves [J] . Alharbi Mohammed Abdullah Hamad, Hirai Shinji, Hoang Anh Tuan, Polymer Testing . 2020,第1期

机译：化学成分，轻度碱性预处理和粒度对机械，热和结构性能的影响，通过热压原料微纤维植物和Cocos Nucifera纤维和叶片制备的粘合剂木质纤维素生物聚合物的机械，热和结构性能
2. Characterization of thermal flame sprayed coatings prepared from FeCr mechanically milled powder [J] . O. Redjdal, B. Zaid, M. S. Tabti, Journal of Materials Processing Technology . 2013,第5期

机译：由FeCr机械研磨粉末制备的热火焰喷涂涂层的特性
3. Structural manipulation of pyrochlores: Thermal evolution of metastable Gd-2(Ti1-yZry)(2)O-7 powders prepared by mechanical milling [J] . Moreno KJ, Fuentes AF, Maczka M, International Journal of Quantum Chemistry . 2006,第12期

机译：烧绿石的结构处理：机械研磨制备的亚稳态Gd-2（Ti1-yZry）（2）O-7粉末的热演化
4. Dataset on mechanical thermal and structural characterization of plant fiber-based biopolymers prepared by hot-pressing raw coconut coir and milled powders of cotton waste bagasse wood and bamboo [O] . Mohammed Abdullah Hamad Alharbi, Shinji Hirai, Hoang Anh Tuan, 2020

机译：通过热压原料椰子皮和棉废蔗渣木材和竹子的研磨粉制得的植物纤维基生物聚合物的机械热和结构表征数据集

Dataset on mechanical, thermal and structural characterization of plant fiber-based biopolymers prepared by hot-pressing raw coconut coir, and milled powders of cotton, waste bagasse, wood, and bamboo

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