1. Finite element Analysis in Dentistry – Improving the quality of oral health care
- Author
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Antheunis Versluis, Crisnicaw Veríssimo, A.A. Bicalho, Marina Guimarães Roscoe, Carlos José Soares, Andréa Dolores Correia Miranda Valdivia, and Bruno de Castro Ferreira Barreto
- Subjects
Orthodontics ,Implant procedures ,business.industry ,Root canal ,media_common.quotation_subject ,Biomechanics ,Dentistry ,Finite element method ,Masticatory force ,Limited access ,medicine.anatomical_structure ,medicine ,Oral health care ,Quality (business) ,business ,media_common - Abstract
The primary function of the human dentition is preparation and processing of food through a biomechanical process of biting and chewing. This process is based on the transfer of masticatory forces, mediated through the teeth (Versluis & Tantbirojn, 2011). The intraoral environment is a complex biomechanical system. Because of this complexity and limited access, most biomechanical research of the oral environment such as restorative, prosthetic, root canal, orthodontic and implant procedures has been performed in vitro (Assuncao et al., 2009). In the in vitro biomechanical analysis of tooth structures and restorative materials, destructive mechanical tests for determination of fracture resistance and mechanical properties are important means of analyzing tooth behavior. These tests, however, are limited with regard to obtaining information about the internal behavior of the structures studied. Furthermore, biomechanics are not only of interest at the limits of fracture or failure, but biomechanics are also important during normal function, for understanding property-structure relationships, and for tissue response to stress and strain. For a more precise interrogation of oral biomechanical systems, analysis by means of computational techniques is desirable.
- Published
- 2012
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