Determination of the elastic/plastic transition of human enamel by nanoindentation.
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Determination of the elastic/plastic transition of human enamel by nanoindentation. / Ang, Siang Fung; Scholz, Torben; Klocke, Arndt; Schneider, Gerold A.
In: DENT MATER, Vol. 25, No. 11, 11, 2009, p. 1403-1410.Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review
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TY - JOUR
T1 - Determination of the elastic/plastic transition of human enamel by nanoindentation.
AU - Ang, Siang Fung
AU - Scholz, Torben
AU - Klocke, Arndt
AU - Schneider, Gerold A
PY - 2009
Y1 - 2009
N2 - OBJECTIVES/METHODS: From a materials scientist's perspective, dental materials used for tooth repair should exhibit compatible mechanical properties. Fulfillment of this criterion is complicated by the fact that teeth have a hierarchical structure with changing mechanical behavior at different length scales. In this study, nanoindentation with an 8 microm spherical indenter was used to determine the elastic/plastic transition under contact loading for enamel. RESULTS: The indentation elastic/plastic transition of enamel at the length scale of several hundreds of hydroxyapatite crystallites, which are within one enamel rod, is revealed for the first time. The corresponding penetration depth at the determined indentation yield point of 1.6GPa and 0.6% strain is only 7 nm. As a consequence of the small depth it is decisive for the experiment to calibrate the indenter tip radius in this loading regime. The elastic modulus of 123GPa was evaluated directly by the Hertzian penetration and not by the unloading part of the indentation curve. SIGNIFICANCE: We believe these data are also a valuable contribution to understand the mechanical behavior of enamel and to develop nanoscale biomimetic materials.
AB - OBJECTIVES/METHODS: From a materials scientist's perspective, dental materials used for tooth repair should exhibit compatible mechanical properties. Fulfillment of this criterion is complicated by the fact that teeth have a hierarchical structure with changing mechanical behavior at different length scales. In this study, nanoindentation with an 8 microm spherical indenter was used to determine the elastic/plastic transition under contact loading for enamel. RESULTS: The indentation elastic/plastic transition of enamel at the length scale of several hundreds of hydroxyapatite crystallites, which are within one enamel rod, is revealed for the first time. The corresponding penetration depth at the determined indentation yield point of 1.6GPa and 0.6% strain is only 7 nm. As a consequence of the small depth it is decisive for the experiment to calibrate the indenter tip radius in this loading regime. The elastic modulus of 123GPa was evaluated directly by the Hertzian penetration and not by the unloading part of the indentation curve. SIGNIFICANCE: We believe these data are also a valuable contribution to understand the mechanical behavior of enamel and to develop nanoscale biomimetic materials.
M3 - SCORING: Zeitschriftenaufsatz
VL - 25
SP - 1403
EP - 1410
JO - DENT MATER
JF - DENT MATER
SN - 0109-5641
IS - 11
M1 - 11
ER -