Nanoindentation mapping of the mechanical properties of human molar tooth enamel

J. L. Cuy, Adrian Mann, K. J. Livi, M. F. Teaford, T. P. Weihs

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Abstract

The mechanical behavior of dental enamel has been the subject of many investigations. Initial studies assumed that it was a more or less homogeneous material with uniform mechanical properties. Now it is generally recognized that the mechanical response of enamel depends upon location, chemical composition, and prism orientation. This study used nanoindentation to map out the properties of dental enamel over the axial cross-section of a maxillary second molar (M2). Local variations in mechanical characteristics were correlated with changes in chemical content and microstructure across the entire depth and span of a sample. Microprobe techniques were used to examine changes in chemical composition and scanning electron microscopy was used to examine the microstructure. The range of hardness (H) and Young's modulus (E) observed over an individual tooth was found to be far greater than previously reported. At the enamel surface H > 6 GPa and E > 115 GPa, while at the enamel-dentine junction H < 3 GPa and E < 70 GPa. These variations corresponded to the changes in chemistry, microstructure, and prism alignment but showed the strongest correlations with changes in the average chemistry of enamel. For example, the concentrations of the constituents of hydroxyapatite (P2O5 and CaO) were highest at the hard occlusal surface and decreased on moving toward the softer enamel-dentine junction. Na2O and MgO showed the opposite trend. The mechanical properties of the enamel were also found to differ from the lingual to the buccal side of the molar. At the occlusal surface the enamel was harder and stiffer on the lingual side than on the buccal side. The interior enamel, however, was softer and more compliant on the lingual than on the buccal side, a variation that also correlated with differences in average chemistry and might be related to differences in function.

Original languageEnglish (US)
Pages (from-to)281-291
Number of pages11
JournalArchives of Oral Biology
Volume47
Issue number4
DOIs
StatePublished - Apr 18 2002
Externally publishedYes

All Science Journal Classification (ASJC) codes

  • Otorhinolaryngology
  • Dentistry(all)
  • Cell Biology

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