Mechanics of longitudinal cracks in tooth enamel

A study is made of longitudinal “channel” cracking in tooth enamel from axial compressive loading. The cracks simulate those generated in the molar and premolar teeth of humans and animals by natural tooth function. Contact loading tests are made on extracted human molars with hard and soft indentin...

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Bibliographic Details
Published in:Acta biomaterialia 2011-05, Vol.7 (5), p.2285-2292
Main Authors: Barani, A., Keown, A.J., Bush, M.B., Lee, J.J.-W., Chai, H., Lawn, B.R.
Format: Article
Language:English
Subjects:
Biomechanical Phenomena
Bite force
cracking
critical load
Dental Enamel - chemistry
Dental Enamel - pathology
Dental Stress Analysis - methods
eating habits
Enamel
Finite Element Analysis
Humans
Longitudinal channel cracks
mechanics
Models, Biological
Molar - chemistry
Molar - pathology
prediction
Teeth
Three-dimensional finite element modeling
Tooth - chemistry
Tooth - pathology
tooth enamel
Tooth Fractures - pathology
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Summary:A study is made of longitudinal “channel” cracking in tooth enamel from axial compressive loading. The cracks simulate those generated in the molar and premolar teeth of humans and animals by natural tooth function. Contact loading tests are made on extracted human molars with hard and soft indenting plates to determine the evolution of such cracks with increasing load. Fracture is largely stable, with initial slow growth followed by acceleration as the cracks approach completion around an enamel side wall. A simple power law relation expresses the critical load for full fracture in terms of characteristic tooth dimensions—base radius and enamel thickness—as well as enamel toughness. Extended three-dimensional finite element modeling with provision for growth of embedded cracks is used to validate this relation. The cracks leave “fingerprints” that offer valuable clues to dietary habits, and provide a basis for a priori prediction of bite forces for different animals from measured tooth dimensions.
ISSN:1742-7061
1878-7568
DOI:10.1016/j.actbio.2011.01.038