Finite‐Element Analysis of Stress on Dental Implant Prosthesis
Identifieur interne : 005286 ( Main/Exploration ); précédent : 005285; suivant : 005287Finite‐Element Analysis of Stress on Dental Implant Prosthesis
Auteurs : José Henrique Rubo [Brésil] ; Edson Antonio Capello Souza [Brésil]Source :
- Clinical Implant Dentistry and Related Research [ 1523-0899 ] ; 2010-06.
Descripteurs français
- Wicri :
- topic : Alliage.
English descriptors
- KwdEn :
- Abutment, Abutment length, Agpd, Alloy, Basic model, Biomechanical, Bone quality, Cancellous, Cancellous bone, Cantilever, Cantilever length, Clinical implant dentistry, Clinical variables, Cocr, Cortical bone, Dental implant prosthesis, Dental implants, Dentistry, Elastic modulus, Emax, Finite element analysis, Framework, Framework alloy, Human mandible, Implant, Implant components, Implant length, Implant shape, Less stress, Mandible, Maxillofac, Modulus, Nite, Nite element method, Occlusal, Occlusal force, Oral maxillofac implants, Perfect bond, Prosthesis, Prosthet dent, Stress concentration, Stress distribution, Stress increase, Terminal implant.
- Teeft :
- Abutment, Abutment length, Agpd, Alloy, Basic model, Biomechanical, Bone quality, Cancellous, Cancellous bone, Cantilever, Cantilever length, Clinical implant dentistry, Clinical variables, Cocr, Cortical bone, Dental implant prosthesis, Dental implants, Dentistry, Elastic modulus, Emax, Finite element analysis, Framework, Framework alloy, Human mandible, Implant, Implant components, Implant length, Implant shape, Less stress, Mandible, Maxillofac, Modulus, Nite, Nite element method, Occlusal, Occlusal force, Oral maxillofac implants, Perfect bond, Prosthesis, Prosthet dent, Stress concentration, Stress distribution, Stress increase, Terminal implant.
Abstract
Background: Understanding how clinical variables affect stress distribution facilitates optimal prosthesis design and fabrication and may lead to a decrease in mechanical failures as well as improve implant longevity.
Url:
DOI: 10.1111/j.1708-8208.2008.00142.x
Affiliations:
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Le document en format XML
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<term>Basic model</term>
<term>Biomechanical</term>
<term>Bone quality</term>
<term>Cancellous</term>
<term>Cancellous bone</term>
<term>Cantilever</term>
<term>Cantilever length</term>
<term>Clinical implant dentistry</term>
<term>Clinical variables</term>
<term>Cocr</term>
<term>Cortical bone</term>
<term>Dental implant prosthesis</term>
<term>Dental implants</term>
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<term>Elastic modulus</term>
<term>Emax</term>
<term>Finite element analysis</term>
<term>Framework</term>
<term>Framework alloy</term>
<term>Human mandible</term>
<term>Implant</term>
<term>Implant components</term>
<term>Implant length</term>
<term>Implant shape</term>
<term>Less stress</term>
<term>Mandible</term>
<term>Maxillofac</term>
<term>Modulus</term>
<term>Nite</term>
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<term>Occlusal</term>
<term>Occlusal force</term>
<term>Oral maxillofac implants</term>
<term>Perfect bond</term>
<term>Prosthesis</term>
<term>Prosthet dent</term>
<term>Stress concentration</term>
<term>Stress distribution</term>
<term>Stress increase</term>
<term>Terminal implant</term>
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<term>Alloy</term>
<term>Basic model</term>
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<term>Bone quality</term>
<term>Cancellous</term>
<term>Cancellous bone</term>
<term>Cantilever</term>
<term>Cantilever length</term>
<term>Clinical implant dentistry</term>
<term>Clinical variables</term>
<term>Cocr</term>
<term>Cortical bone</term>
<term>Dental implant prosthesis</term>
<term>Dental implants</term>
<term>Dentistry</term>
<term>Elastic modulus</term>
<term>Emax</term>
<term>Finite element analysis</term>
<term>Framework</term>
<term>Framework alloy</term>
<term>Human mandible</term>
<term>Implant</term>
<term>Implant components</term>
<term>Implant length</term>
<term>Implant shape</term>
<term>Less stress</term>
<term>Mandible</term>
<term>Maxillofac</term>
<term>Modulus</term>
<term>Nite</term>
<term>Nite element method</term>
<term>Occlusal</term>
<term>Occlusal force</term>
<term>Oral maxillofac implants</term>
<term>Perfect bond</term>
<term>Prosthesis</term>
<term>Prosthet dent</term>
<term>Stress concentration</term>
<term>Stress distribution</term>
<term>Stress increase</term>
<term>Terminal implant</term>
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<front><div type="abstract">Background: Understanding how clinical variables affect stress distribution facilitates optimal prosthesis design and fabrication and may lead to a decrease in mechanical failures as well as improve implant longevity.</div>
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