Field-grading with semi-conducting materials based on silicon carbide (SiC)

“…The significant difference between the two doped grains confirms that the electrical conductivity of composites can be controlled by filler composition. Gärtner et al [ 65 ] studied SiC-based composites without doping and with p-type (Al) and n-type doping. The characteristics of the fillers are presented in Table 2 .…”

“…When the fillers were n-type, the electrical resistance of composites decreased compared with that of the undoped one. Finally, the composite with the lowest resistance was Al-doped p-type SiC [ 65 ]. The filler composition influenced the final properties of the composites.…”

Nonlinear Electrical Conduction in Polymer Composites for Field Grading in High-Voltage Applications: A Review

“…The significant difference between the two doped grains confirms that the electrical conductivity of composites can be controlled by filler composition. Gärtner et al [ 65 ] studied SiC-based composites without doping and with p-type (Al) and n-type doping. The characteristics of the fillers are presented in Table 2 .…”

“…When the fillers were n-type, the electrical resistance of composites decreased compared with that of the undoped one. Finally, the composite with the lowest resistance was Al-doped p-type SiC [ 65 ]. The filler composition influenced the final properties of the composites.…”

Nonlinear Electrical Conduction in Polymer Composites for Field Grading in High-Voltage Applications: A Review

Stress relieving with resistive materials based on silicon carbide (SiC)

Field-dependent conductivity and space charge behavior of silicone rubber/SiC composites