Manipulation of Cellulose Crystalline Structure: Mechanical, Morphological, Thermal and Biodegradation Properties of Polyethylene-based Composites

Amorphous high-density polyethylene microcrystalline cellulose soil burial
["Rosli, Noor Afizah","Ahmad, Ishak"] 2025-01-01 期刊论文
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Cellulose crystallinity can be altered by various treatment methods, including mechanical or chemical treatments, which can affect the properties of thermoplastic composites. In this study, the crystallinity of cellulose was manipulated using mechanical ball milling. The primary objective was to assess the impact of altering the cellulose crystallinity on the overall performance of high-density polyethylene (HDPE)-based composites. The mechanical and structural properties of the composites were assessed using tensile and impact tests, attenuated total reflectance infrared ( ATR-IR ) spectroscopy, scanning electron microscopy (SEM), and thermogravimetric analysis (TGA). The degradation properties of the HDPE composites were evaluated using a soil-burial degradation test. The impact of cellulose crystallinity on the mechanical properties of HDPE composites showed a marginal enhancement of 5% in tensile strength with the incorporation of 2% low-crystallinity cellulose (LCC). The highest impact strength of the HDPE composites was attained by the incorporation of 6% LCC. ATR-IR analysis showed that the peak intensity of the HDPE-LCC composite decreased, whereas the HDPE composite with high-crystallinity cellulose (HCC) did not exhibit changes in peak intensity compared to the HDPE spectrum. SEM examination showed that LCC possessed superior dispersion in the HDPE matrix compared to that of HCC. Thermal degradation decreased by up to 32% with the addition of HCC and LCC. A soil burial degradation study showed that the mechanical properties of the HDPE-LCC composite deteriorated more than those of the HDPE-HCC composite after 24 months. This study concluded that altering the crystallinity of cellulose can lead to composites with tailored properties.
来源平台:SAINS MALAYSIANA