Micro-indentation fracture behavior of human enamel

Objective: The purpose of this study was to determine the crack resistance behavior (KR) of human enamel in relation to its microstructure. Methods: Human molar teeth were precision cut, polished and tested using Vickers micro-indentation at different loads ranging from 0.98 to 9.8 N. Five indentation load levels were considered, 20 indentation cracks for each load level were introduced on the surface of the test specimen (10 indentations per tooth) and their variability was evaluated using Weibull statistics and an empirical model. Scanning electron microscopy (SEM) and atomic force microscopy (AFM) were used to analyze the crack morphology and propagation mechanisms involved. Results: The results showed that enamel exhibited increasing cracking resistance (KR) with increasing load. It was found that the crack propagation mainly depended on the location and the microstructure it encountered. SEM showed the formation of crack bridges and crack deflection near the indentation crack tip. The crack mode was of Palmqvist type even at larger loads of 9.8 N. This was mainly attributed to the large process zone created by the interwoven lamellar rod like microstructure exhibited by the enamel surface. Significance: This study shows that there are still considerable prospects for improving dental ceramics and for mimicking the enamel structure developed by nature. © 2009 Academy of Dental Materials