Heat-resistant polymer composites based on ethylene tetrafluoroethylene mixed with inorganic polyoxides
Authors
Shaulov A., Addiego F., Federico C.E., Stegno E., Grachev A., Patlazhan S.
Reference
Materials, vol. 14, n° 4, pp. 1-15, art. no. 969, 2021
Description
This pilot study aimed at investigating an alternative to irradiation-crosslinking to in-crease the structural stability of ethylene tetrafluoroethylene (ETFE), by mixing this polymer matrix with polyoxides. The latter consisted of aluminum polyphosphate (AP) having a flow temperature near to that of ETFE to facilitate melt-mixing by extrusion, and rigid fillers of metakaolin (MK). It was found that the ETFE/AP/MK composite with the formulation 60/20/20 (wt %) exhibited the most relevant properties. Indeed, when comparing this composite with neat ETFE, the structural stability was improved until 120 °C, the onset temperature of degradation passed from 381.5 to 459.4 °C, the elastic modulus evolved from 0.4 GPa to 1.6 GPa, and the tensile strength increased from 23 to 27 MPa. The results were briefly discussed based on a potential interaction between the polyoxides and the polymer matrix and synergistic effect between the two polyoxides.
