Photo from wikipedia
Abstract The piezo-dielectricity of a polymer-derived amorphous silicoaluminum oxycarbide ( a -SiAlCO) was studied. The material showed a relatively high dielectric constant and anomalous piezo-dielectricity characterized by a positive pressure… Click to show full abstract
Abstract The piezo-dielectricity of a polymer-derived amorphous silicoaluminum oxycarbide ( a -SiAlCO) was studied. The material showed a relatively high dielectric constant and anomalous piezo-dielectricity characterized by a positive pressure coefficient as high as 0.10–0.25 MPa −1 . Further analyses indicated that this anomalous piezo-dielectricity resulted from an increase of polarizability with pressure. This phenomenon was ascribed to the unique self-formed bi-phasic (i.e., low-conductive ceramic and high-conductive free-carbon phases) structure of the SiAlCO material. The huge piezo-dielectric coefficient makes this material a very promising candidate for high-temperature sensing applications.
Journal Title: Ceramics International
Year Published: 2018
Link to full text (if available)
Share on Social Media: Sign Up to like & get
recommendations!