Homogenization Analysis in Particle Boards with Rice Husk Reinforcement

Tecnura Pub Date : 2022-01-01 DOI:10.14483/22487638.17170

Edwin Alexander Revelo Cuarán, Nayive Nieves Pimiento, Carlos Augusto Toledo Bueno

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引用次数: 2

Abstract

Objective: To morphologically analyze, by means of scanning electron microscopy (SEM), agglomerated boards made from rice husk and Hidropul 400, as well as boards made from wood fibers and glue. Methodology: For each 7,3 x 3,6 x 1,5 cm test piece, two samples were taken from the external and internal sections of each one of the boards to be analyzed. Thin-layer graphite coatings were made to each one of them, and, by means of SEM, micrographic shots were obtained in the range from 50x to 2000x. Results: It was evidenced that the panel made from rice husk had damage to its internal structure due to its porosity, the waxy layers of its coating, the high presence of silica, and the presence of water inside the adhesive, showing irregularities in adhesion between particles and low mechanical properties. Conclusions: Although the studied rice husk panel did not achieve the adequate structural properties, it has great applications for interior design. Additionally, due to its porous structure, its potential as a sound-absorbing material is considered. In the same way, the material can be improved by pre-treating the husk or combining it with other, more woody plant fibers such as wood waste, bamboo, coconut fiber, among others. Metodología: Se tomaron dos muestras por probeta de 7.3 x 3.6 x 1.5 cm en las secciones externas e internas por cada uno de los paneles a analizar, se realizaron recubrimientos de capa fina de grafito a cada una de ellas; por medio del microscopio electrónico de barrido se realizaron tomas micrográficas en rangos de 50x a 2000x. Resultados: Se evidencio que el panel fabricado con cascarilla de arroz, presentaba afectaciones en su estructura interna, debido a la porosidad, a las capas cerosas de su recubrimiento, a la alta presencia de sílice y la presencia de agua dentro del adhesivo, mostrando irregularidades en adherencia entre partículas y bajas propiedades mecánicas. Conclusiones: Aunque el panel a base de cascarilla de arroz estudiado no obtuvo las propiedades adecuadas estructurales, tiene grandes aplicaciones para el diseño de interiores, además por estructura porosa se consideran su potencial como material absorbente del sonido. De igual forma se puede mejorar el material al hacer un pretratamiento de la cascarilla o combinar con diferentes fibras vegetales más leñosas como desperdicios de madera, bambú, fibra de coco entre otros.

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稻壳增强刨花板的均质化分析

目的：通过扫描电子显微镜（SEM）对稻壳和水粉400制成的刨花板以及木纤维和胶制成的刨花板进行形态分析。方法：对于每个7.3 x 3.6 x 1.5厘米的测试件，从每个板的外部和内部部分采集两个样本进行分析。分别制备了薄层石墨涂层，通过扫描电镜，获得了50x至2000x的显微照片。结果：有证据表明，稻壳制成的面板由于其多孔性、涂层的蜡层、二氧化硅的高存在以及粘合剂内部存在水，对其内部结构造成了损害，表明颗粒之间的粘附不规则，力学性能较低。结论：虽然所研究的米饼面板没有达到足够的结构性能，但它在室内设计中有很大的应用。此外，由于其多孔结构，考虑了其作为吸声材料的潜力。同样，可以通过预处理Husk或将其与其他更多的木本植物纤维（如木材废料、竹子、椰子纤维等）结合来改善材料。方法：在每个待分析面板的外部和内部部分，每个7.3 x 3.6 x 1.5厘米的试件上采集两个样本，在每个试件上涂覆石墨薄膜；结果：有证据表明，由稻壳制成的面板由于孔隙率、涂层的蜡质层、二氧化硅的高存在和粘合剂中的水的存在，对其内部结构产生了影响，结论：虽然所研究的稻壳基面板没有获得适当的结构性能，但它在室内设计中有很大的应用，此外，由于多孔结构，它们被认为是一种潜在的吸声材料。同样，可以通过对树皮进行预处理或与不同的木本植物纤维（如木材废料、竹子、椰子纤维等）结合来改进材料。

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Tecnura

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40 weeks