Plasma treatment and annealing conditions on mechanical and electrical properties of thermoplastic composites

Abstract

AbstractIn this research carbon fibers (CFs) with plasma polyethylene (PPE) was utilized for enhancing the properties. The 10 wt% CF with PPE (CF/PPE) exhibited favorable electrical conductivity (34 Ω cm), with better tensile strength (22.7 MPa), flexural strength (26.89 MPa) compared with the other CF combinations. In the positive temperature coefficient (PTC) test, after the initial trial, the CF/PPE combination exhibited a change in path at higher temperatures (125 and 128°C) due to temperature fluctuations, which altered the properties of composites. It is evident that the resistivity (R) ratio exhibits higher values (CF/PPE) for annealing samples (90°C for 5 h). The annealing process resulted in a PTC intensity of 2.53, which was higher than nonannealing (1.94). Scanning electron microscopy (SEM) analysis without annealing procedure revealed a greater number of deformations in the combination, which resulted in decrease in repeatability. The majority of combinations exhibited enthalpy of melting between 114.3 and 116.4 J/g. The annealed combination, which was heated to 128°C, exhibited an increase in enthalpy up to 122.4 J/g. The melting point of both the annealing and nonannealing samples increased from 131 to 134.1°C following the R–T test, while the crystallization temperature remained unaffected.