Self-Sensing Behavior of Carbon Fiber Reinforced Carbon Matrix Composite Based on Dielectric Behavior

Carbon fiber reinforced carbon matrix composites (C/C) are popular due to their excellent mechanical and conductive properties, while their dielectric behavior has received little attention. The LCR meter was used to measure the relative permittivity of C/C. The resistivity was measured by current source and nanovoltage meter combined with four- probe method. The results show that the fractional change in relative permittivity per unit strain is 528±8, which is 375% higher than the fractional change in resistivity per unit strain, indicating that the dielectric behavior is more sensitive to changes in microstructures. In addition, the enhancement of dielectric behavior of C/C is due to compressive strain inducing micro defects, such as grain boundaries, interfaces, etc., that provide sites for space polarization involving a fraction of electrons and holes; on the other hand, the polarization continuity of C/C is enhanced by compression. The increase in the number of electrons and holes that participate in polarization per unit compressive strain is (1.37±0.02)×1010. The relative permittivity of C/ C is lower than both carbon fiber and graphite due to high porosity and interfaces. © 2024 Sichuan University. All rights reserved.