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Pyroresistive Properties of Composites Based on HDPE and Carbon Fillers.

Yevgen MamunyaOleksii MaruzhenkoRoman KolisnykMaksym IurzhenkoAndrii PylypenkoOlha MasiuchokMarcin GodzierzIgor KrivtsunBarbara TrzebickaSébastien Pruvost
Published in: Polymers (2023)
Electrothermal processes were studied in pyroresistive composites based on high-density polyethylene (HDPE) containing 8 vol.% carbon black (CB), 8 vol.% carbon fibers (CF), and their mixture 4 vol.% CB + 4 vol.% CF. It is shown that the kinetic heating curves of composites are well described by an exponential dependence with a certain heating rate constant k for each type of composite. After a short heating time, the equilibrium temperature T e is reached in the sample. When the applied voltage exceeds a certain value, the T e value decreases due to the presence of the positive temperature coefficient of resistance (PTC) effect. Due to the PTC effect, the composites exhibit a self-regulating effect relative to the T e . Relations between the applied voltage, electric power, and equilibrium temperature are found, the T e value depends on the applied voltage according to the quadratic law whereas there is a linear relationship between the T e and electric power. A possible application of such pyroresistive composites is resistance welding of plastics using a heating element (HE) made of a pyroresistive material. The use of HDPE-CB composite to create HE for resistance welding is demonstrated and the welded joint of HDPE parts obtained using HE is shown.
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