用松树和桉树纤维制造的淀粉生物复合材料和模塑纸浆样品的机械性能

Artunç Alptekin, H. Callioglu
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引用次数: 0

摘要

近年来,主要的挑战之一是提高生物复合材料的机械性能,用于建筑、汽车和航空领域的结构部件。本文的研究为开发具有耐久性的淀粉结构生物复合材料零件提供了理论依据。测定了桉树或松木纤维(48 wt %)与阳离子淀粉(48 wt %)和羧甲基纤维素(4 wt %)复合增强生物复合材料的力学性能。生产方法是模塑纸浆,挤压和压缩成型生产技术的结合。为了观察在生物复合材料中添加淀粉和不同生产方法的效果,我们还发现了这些天然纤维在常规模浆生产方法(不添加任何添加剂)下的力学性能,并与复合材料样品进行了比较。与模塑纸浆样品相比,复合样品的拉伸、弯曲和压缩值至少提高了四倍。另一方面,纸浆模塑样品对复合材料的冲击性能提高了2倍以上。将纸浆模塑技术应用于复合材料生产是一种新的思路,它具有批量生产兼容性和几何自由度,可能为工业提供一些机会。
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Mechanical properties of starch bio-composite and molded pulp samples manufactured using pine and eucalyptus fibers
In recent years, one of the main challenges is to improve the mechanical performance of bio-composites to be used as structural parts for the construction, automotive, and aviation sector. This paper may contribute to developing durable structural bio-composite parts with starch addition. The mechanical properties of bio-composites reinforced by eucalyptus or pine fibers (48 wt %) compound with Cationic Starch (48 wt %) and Carboxymethyl cellulose (CMC) (4 wt %) were determined. The production method was a combination of molded pulp, extrusion, and compression molding production techniques. To see the effect of adding starch to bio-composites and different production methods, the mechanical performance of these natural fibers produced by the conventional molded pulp production method (without any additives) was also found and compared with the composite samples. Composite samples indicate significantly better tensile, flexural, and compressive values, at least four times, compared with the molded pulp samples. On the other hand, the molded pulp samples had more than 2 times better impact characteristics against composites. Using molded pulp technic in composite production (investigated in the study) is a new idea and may give some opportunities with its serial production compatibility and geometry freeness, to the industry.
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