In vitro fracture toughness of human dentin

Abstract

The in vitro fracture toughness of human dentin has been reported to be of the order of 3 MPa√m. This result, however, is based on a single study for a single orientation, and furthermore involves notched, rather than fatigue precracked, test samples. The present study seeks to obtain an improved, lower-bound, value of the toughness, and to show that previously reported values may be erroneously high because of the absence of a sharp crack as the stress concentrator. Specifically, the average measured critical stress intensity, K_c, for the onset of unstable fracture along an orientation perpendicular to the long axis of the tubules in dentin is found to be 1.8 MPa√m in simulated body fluid (Hanks' balanced salt solution), when tested in a three-point bending specimen containing a (nominally) atomically sharp precrack generated during prior fatigue cycling. This is to be compared with a value of 2.7 MPa√m measured under identical experimental conditions except that the bend specimen contained a sharp machined notch (of root radius 30–50 μm). The effect of acuity of the precrack on the fracture toughness of human dentin is discussed in the context of these data. © 2003 Wiley Periodicals, Inc. J Biomed Mater Res 66A: 1–9, 2003