Excessive thermal conductivity and low leakage part change supplies crammed with three-dimensional carbon fiber community: Fullerenes, Nanotubes and Carbon Nanostructures: Vol 0, No 0

Summary

As one of the efficient vitality storage compounds, part change supplies (PCMS) play an essential position in vitality conservation and storage. Nevertheless, the inherent poor thermal conductivity and liquid leakage of PCMS significantly restrict their sensible utility. Polyethylene glycol·calcium chloride (PEG·CaCl₂) part change supplies crammed with three-dimensional carbon fiber community have been ready by liquid part impregnation and scorching urgent molding methodology. The experimental outcomes present that carbon fiber community (CF felt) and PEG·CaCl₂ advanced construction enhance the thermal conductivity and stability. The in-plane thermal conductivity of PEG·CaCl₂/CF composite (47.73% carbon content material) is 0.97 W/mK, about 103% larger than that of PEG. PEG·CaCl₂/CF composite doesn’t current leakage even heating at 80 °C for 45 min (35 °C larger than the melting level of pure PEG), exhibiting low leakage capability. Excessive thermal conductivity, low leakage and low density of this composite counsel a promising route for thermal storage functions.