磨损对牙齿应力分布和潜在断裂的影响。

Effect of wear on stress distributions and potential fracture in teeth.

机构信息

School of Mechanical Engineering, The University of Western Australia, Crawley, WA, Australia.

出版信息

J Mater Sci Mater Med. 2009 Nov;20(11):2243-7. doi: 10.1007/s10856-009-3802-5. Epub 2009 Jun 18.

PMID:19536639

Abstract

Finite element analysis is conducted on a tooth model with different degrees of wear. The model is taken as a hemispherical shell (enamel) on a compliant interior (dentin). Occlusal loading is simulated by contact with a flat or curved, hard or soft, indenter. Stress redistributions indicate that development of a wear facet may enhance some near-contact fracture modes (cone-ring cracks, radial-median cracks, edge-chipping), but have little effect on far-field modes (margin cracks). Contacts on worn surfaces with small, hard food objects are likely to be most deleterious, generating local stress concentrations and thereby accelerating the wear process. More typical contacts with larger-scale soft foods are unlikely to have such adverse effects. Implications concerning dietary habits of animals is an adjunct consideration in this work.

摘要

对不同磨损程度的牙齿模型进行有限元分析。该模型被视为一个具有顺应性内部（牙本质）的半球壳（牙釉质）。通过与平面或曲面、硬或软的压头接触来模拟咬合加载。应力再分布表明，磨损面的形成可能会增强某些近接触断裂模式（锥形环裂缝、径向-中央裂缝、边缘崩裂），但对远场模式（边缘裂缝）影响不大。与小而硬的食物物体接触的磨损表面可能具有最大的危害性，会产生局部应力集中，从而加速磨损过程。与较大规模的软食物的更典型接触不太可能产生这种不利影响。在这项工作中，关于动物饮食习惯的影响是一个附加的考虑因素。

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磨损对牙齿应力分布和潜在断裂的影响。

Effect of wear on stress distributions and potential fracture in teeth.

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