Objectives: The small volume of human dentin available for sample preparation and the local variations in its microstructure present a real challenge in the determination of their mechanical properties. The main purpose of the present study was to develop a new procedure for the preparation and mechanical testing of small-scale specimens of biomaterials such as dentin, so as to probe local mechanical properties as a function of microstructure.
Methods: Ultra short laser pulses were used to mill a block of dentin into an array of 16 microm size dentin pillars. These could then be individually tested in compression with an instrumented nanoindenter fitted with a 30 microm wide flat punch.
Results: The laser-based pillar preparation procedure proved effective and reliable. Data was produced for the mechanical properties of a first set of dry dentin micro-pillars.
Significance: This novel experimental approach enables the preparation and compression of micron-scale samples with well-defined microstructure. For dentin, this means samples containing a relatively small number of well-defined parallel tubules, with a distinct orientation relative to the applied load. The ability to isolate the separate effects of microstructural parameters on the mechanical properties is of major significance for future substantiation of theoretical models.
Copyright 2009 Academy of Dental Materials. Published by Elsevier Ltd. All rights reserved.