Transition behavior in fatigue of human dentin: Structure and anisotropy

## Abstract Although human dentin is known to be susceptible to failure under repetitive cyclic fatigue loading, there are few reports in the literature that reliably quantify this phenomenon. This study seeks to address the paucity of fatigue data through a systematic investigation of the effects

## Abstract Although striations are often used in evaluating fatigue crack growth in engineering materials, they have not been used in studying the mechanics of fracture in hard tissues. The primary objective of this study was to evaluate the striations resulting from fatigue crack growth in the de

A model of layered superconducting structure consisting of alternating anisotropic superconducting layers S, and S, with different transition temperatures is considered. It is shown that due to competition between two origins of anisotropyeffective-mass anisotropy of individual layers and proximity-

Although freeze dried formulations are commonly characterized using differential scanning calorimetry (DSC), a protein-rich system behaves as a ''strong glass'', and the glass transition temperature, T g , cannot be directly determined by DSC. A strong glass means a small heat capacity change at T g