Abstract
Fly ash particles are usually spherical and based on their chemical composition; they are categorized into two classes: C and F. This study compares the microstructural, mechanical and thermal properties of extruded rigid PVC foam composites reinforced with class C and class F fly ash. The mechanical properties: such as tensile and flexural strength of composites containing class C fly ash were superior to the composites containing class F fly ash particles. Composites containing 6 phr class C fly ash showed a 24% improvement in the tensile strength in comparison to a mere 0.5% increase in composites reinforced with class F fly ash. Similarly, the addition of 6 phr of class F fly ash to the PVC foam matrix resulted in a 5.74% decrease in the flexural strength, while incorporating the same amount of class C fly ash led to a 95% increase in flexural strength. The impact strength of the composites decreased as the amount of either type of fly ash increased in the composites indicating that fly ash particles improve the rigidity of the PVC foam composites. No significant changes were observed in the thermal properties of the composites containing either type of fly ash particles. However, the thermo-mechanical properties measured by DMA indicated a steep increase in the viscoelastic properties of composites reinforced with class C flyash. The microstructural properties studied by Scanning Electron Microscopy (SEM) confirmed that fly ash particles were mechanically interlocked in the PVC matrix with good interfacial interaction with the matrix. However, particle agglomeration and debonding was observed in composites reinforced with higher amounts of fly ash.
Highlights
Fly ash (FA) is widely studied as reinforcing filler in metal, polymer, and cement matrices due to its unique properties; such as low density, low cost, and smooth spherical surface [1]
FA-C particles are found to be coarser than FA-F particles [3] [7]
The particle size distribution of FA-F particles were found to be in the range of 0.1 to 150 μm, while those of FA-C particles were in the range of 1 to 180 μm
Summary
Fly ash (FA) is widely studied as reinforcing filler in metal, polymer, and cement matrices due to its unique properties; such as low density, low cost, and smooth spherical surface [1]. Qiao et al [8] prepared Polyurea/FA composites; they showed that the dynamic mechanical properties were enhanced in the presence of FA particles. Vijaykumar et al [17] prepared FA-epoxy core sandwiched composites with three different proportions of epoxy and FA Their studies on tensile and compressive strengths indicated that the composite with 60% FA had the best properties. This study is an attempt to understand the effect of the chemical composition of FA on the thermal, mechanical, and microstructural properties of rigid PVC foams. Two different types of FA, namely FA-C and FA-F, were added separately to the PVC foam compound at low (6 phr) and high (40 phr) loadings to compare the effect of these particles on the properties of the composites
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