Mechanical properties and microstructure of In-Ceram, a ceramic-glass composite for dental crowns

Abstract

The mechanical properties and microstructure of In-Ceram have been investigated. In-Ceram is an alumina-glass composite used for the core of dental crowns produced by infiltrating a glass through a porous alumina skeleton framework. A key property of dental cores besides aesthetic is mechanical strength. The factors affecting strength and microstructure of In-Ceram are discussed in comparison with conventional dental core porcelain. The mean strength of In-Ceram has been found to exceed 600 MPa (ballon- ring tests), but the variance of the measurements is high, demonstrating the importance of the precise preparation of the composite. The influence of aqueous and acidic environment on strength was also studied. The results indicate that In-Ceram, although sensitive to acetic and aqueous environments, combines a level of strength and toughness which should result in an improved clinical performance. EDX-analysis and dilatometry showed that the composition and thermal expansion of the composite phases, glass phase and alumina particles, contribute to the fracture resistance and strength of the composite.