Title of article
Anisotropic fracture in bovine root and coronal dentin
Author/Authors
Rizhi Wang، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2005
Pages
8
From page
429
To page
436
Abstract
Objectives
This purpose of this study was to address the fundamental question of how the fracture properties of dentin are related to its composite structure.
Methods
Strain concentration tests and impression-induced damage tests were designed to compare bovine root dentin with coronal dentin, and to understand the role of individual structural elements in the fracture of dentin.
Results
Absent in peritubular dentin, root dentin is insensitive to cracks and exhibits higher fracture resistance than coronal dentin that has a typical brittle fracture behavior along the peritubular dentin. Fracture analysis and impression damage experiments found that root dentin is highly anisotropic in fracture behavior. Cracking is predominantly controlled by the organization of collagen fibrils, with the incremental lines being the weakest planes. In coronal dentin, highly mineralized peritubular dentin that intersects with the incremental lines creates additional weak orientations that compete with the incremental lines and thus greatly decrease the degree of fracture anisotropy.
Significance
This study demonstrated that dentin is by no means homogeneous in terms of fracture properties. Location and orientation (especially in terms of incremental lines) should be taken into account when examining tooth failure both in laboratory and in clinical studies.
Keywords
Fracture toughness , Impression cracking , Anisotropy , Dentin
Journal title
Dental Materials
Serial Year
2005
Journal title
Dental Materials
Record number
505953
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