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Mechanical and Rheological Properties of Bamboo Pulp Fiber Reinforced High Density Polyethylene Composites: Influence of Nano CaCO3 Treatment and Manufacturing Process with Different Pressure Ratings

Cuicui Wang, Xin Wei, Lee M. Smith, Ge Wang, Shuangbao Zhang, Haitao Cheng

2022JOURNAL OF RENEWABLE MATERIALS10 citationsDOIOpen Access PDF

Abstract

In order to investigate the effect of the relative motion of nano CaCO3 reinforced bamboo pulp fiber (BPF)/HDPE composite components on the mechanical performance, a comparative study was performed. BPF was treated by nano CaCO3 blending (BM) and impregnation modification (IM) technology. The composites were produced using hot press (HPMP), extrusion (EMP) and injection molding process (IMP). The physical morphology of BPF was similar at different manufacturing processes. Compared to the samples manufactured by HPMP, a decrease in the (specific) flexural strength of BPF/HDPE composites and an increase in those of composites treated by nano CaCO3 manufactured by EMP and IMP were observed. The injection molded composites exhibited the best values in the (specific) impact strength, (specific) tensile properties. IM had a greater effect on the rheological behavior of the composites than BM, and nano CaCO3 treatment most effectively affected the performance of the extrusion molded composites.

Topics & Concepts

Materials scienceComposite materialHigh-density polyethyleneExtrusionFlexural strengthBambooUltimate tensile strengthRheologyPulp (tooth)Composite numberIzod impact strength testNano-PolyethylenePathologyMedicineNatural Fiber Reinforced CompositesBamboo properties and applicationsPolymer Nanocomposites and Properties
Mechanical and Rheological Properties of Bamboo Pulp Fiber Reinforced High Density Polyethylene Composites: Influence of Nano CaCO3 Treatment and Manufacturing Process with Different Pressure Ratings | Litcius