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FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials
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Zeitschriftentitel: | The Scientific World Journal |
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Personen und Körperschaften: | , , , , , , , , , , |
In: | The Scientific World Journal, 2017, 2017, S. 1-7 |
Format: | E-Article |
Sprache: | Englisch |
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Hindawi Limited
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author_facet |
Bramanti, Ennio Cervino, Gabriele Lauritano, Floriana Fiorillo, Luca D’Amico, Cesare Sambataro, Sergio Denaro, Deborah Famà, Fausto Ierardo, Gaetano Polimeni, Antonella Cicciù, Marco Bramanti, Ennio Cervino, Gabriele Lauritano, Floriana Fiorillo, Luca D’Amico, Cesare Sambataro, Sergio Denaro, Deborah Famà, Fausto Ierardo, Gaetano Polimeni, Antonella Cicciù, Marco |
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author |
Bramanti, Ennio Cervino, Gabriele Lauritano, Floriana Fiorillo, Luca D’Amico, Cesare Sambataro, Sergio Denaro, Deborah Famà, Fausto Ierardo, Gaetano Polimeni, Antonella Cicciù, Marco |
spellingShingle |
Bramanti, Ennio Cervino, Gabriele Lauritano, Floriana Fiorillo, Luca D’Amico, Cesare Sambataro, Sergio Denaro, Deborah Famà, Fausto Ierardo, Gaetano Polimeni, Antonella Cicciù, Marco The Scientific World Journal FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials General Environmental Science General Biochemistry, Genetics and Molecular Biology General Medicine |
author_sort |
bramanti, ennio |
spelling |
Bramanti, Ennio Cervino, Gabriele Lauritano, Floriana Fiorillo, Luca D’Amico, Cesare Sambataro, Sergio Denaro, Deborah Famà, Fausto Ierardo, Gaetano Polimeni, Antonella Cicciù, Marco 2356-6140 1537-744X Hindawi Limited General Environmental Science General Biochemistry, Genetics and Molecular Biology General Medicine http://dx.doi.org/10.1155/2017/1029574 <jats:p>The aim of this paper is to underline the mechanical properties of dental single crown prosthodontics materials in order to differentiate the possibility of using each material for typical clinical condition and masticatory load. Objective of the investigation is to highlight the stress distribution over different common dental crowns by using computer-aided design software and a three-dimensional virtual model. By using engineering systems of analyses like FEM and Von Mises investigations it has been highlighted the strength over simulated lower first premolar crowns made by chrome cobalt alloy, golden alloy, dental resin, and zirconia. The prosthodontics crown models have been created and put on simulated chewing stresses. The three-dimensional models were subjected to axial and oblique forces and both guaranteed expected results over simulated masticatory cycle. Dental resin presented the low value of fracture while high values have been recorded for the metal alloy and zirconia. Clinicians should choose the better prosthetic solution for the teeth they want to restore and replace. Both prosthetic dental crowns offer long-term success if applied following the manufacture guide limitations and suggestions.</jats:p> FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials The Scientific World Journal |
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10.1155/2017/1029574 |
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title |
FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials |
title_unstemmed |
FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials |
title_full |
FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials |
title_fullStr |
FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials |
title_full_unstemmed |
FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials |
title_short |
FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials |
title_sort |
fem and von mises analysis on prosthetic crowns structural elements: evaluation of different applied materials |
topic |
General Environmental Science General Biochemistry, Genetics and Molecular Biology General Medicine |
url |
http://dx.doi.org/10.1155/2017/1029574 |
publishDate |
2017 |
physical |
1-7 |
description |
<jats:p>The aim of this paper is to underline the mechanical properties of dental single crown prosthodontics materials in order to differentiate the possibility of using each material for typical clinical condition and masticatory load. Objective of the investigation is to highlight the stress distribution over different common dental crowns by using computer-aided design software and a three-dimensional virtual model. By using engineering systems of analyses like FEM and Von Mises investigations it has been highlighted the strength over simulated lower first premolar crowns made by chrome cobalt alloy, golden alloy, dental resin, and zirconia. The prosthodontics crown models have been created and put on simulated chewing stresses. The three-dimensional models were subjected to axial and oblique forces and both guaranteed expected results over simulated masticatory cycle. Dental resin presented the low value of fracture while high values have been recorded for the metal alloy and zirconia. Clinicians should choose the better prosthetic solution for the teeth they want to restore and replace. Both prosthetic dental crowns offer long-term success if applied following the manufacture guide limitations and suggestions.</jats:p> |
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author | Bramanti, Ennio, Cervino, Gabriele, Lauritano, Floriana, Fiorillo, Luca, D’Amico, Cesare, Sambataro, Sergio, Denaro, Deborah, Famà, Fausto, Ierardo, Gaetano, Polimeni, Antonella, Cicciù, Marco |
author_facet | Bramanti, Ennio, Cervino, Gabriele, Lauritano, Floriana, Fiorillo, Luca, D’Amico, Cesare, Sambataro, Sergio, Denaro, Deborah, Famà, Fausto, Ierardo, Gaetano, Polimeni, Antonella, Cicciù, Marco, Bramanti, Ennio, Cervino, Gabriele, Lauritano, Floriana, Fiorillo, Luca, D’Amico, Cesare, Sambataro, Sergio, Denaro, Deborah, Famà, Fausto, Ierardo, Gaetano, Polimeni, Antonella, Cicciù, Marco |
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container_title | The Scientific World Journal |
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description | <jats:p>The aim of this paper is to underline the mechanical properties of dental single crown prosthodontics materials in order to differentiate the possibility of using each material for typical clinical condition and masticatory load. Objective of the investigation is to highlight the stress distribution over different common dental crowns by using computer-aided design software and a three-dimensional virtual model. By using engineering systems of analyses like FEM and Von Mises investigations it has been highlighted the strength over simulated lower first premolar crowns made by chrome cobalt alloy, golden alloy, dental resin, and zirconia. The prosthodontics crown models have been created and put on simulated chewing stresses. The three-dimensional models were subjected to axial and oblique forces and both guaranteed expected results over simulated masticatory cycle. Dental resin presented the low value of fracture while high values have been recorded for the metal alloy and zirconia. Clinicians should choose the better prosthetic solution for the teeth they want to restore and replace. Both prosthetic dental crowns offer long-term success if applied following the manufacture guide limitations and suggestions.</jats:p> |
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spelling | Bramanti, Ennio Cervino, Gabriele Lauritano, Floriana Fiorillo, Luca D’Amico, Cesare Sambataro, Sergio Denaro, Deborah Famà, Fausto Ierardo, Gaetano Polimeni, Antonella Cicciù, Marco 2356-6140 1537-744X Hindawi Limited General Environmental Science General Biochemistry, Genetics and Molecular Biology General Medicine http://dx.doi.org/10.1155/2017/1029574 <jats:p>The aim of this paper is to underline the mechanical properties of dental single crown prosthodontics materials in order to differentiate the possibility of using each material for typical clinical condition and masticatory load. Objective of the investigation is to highlight the stress distribution over different common dental crowns by using computer-aided design software and a three-dimensional virtual model. By using engineering systems of analyses like FEM and Von Mises investigations it has been highlighted the strength over simulated lower first premolar crowns made by chrome cobalt alloy, golden alloy, dental resin, and zirconia. The prosthodontics crown models have been created and put on simulated chewing stresses. The three-dimensional models were subjected to axial and oblique forces and both guaranteed expected results over simulated masticatory cycle. Dental resin presented the low value of fracture while high values have been recorded for the metal alloy and zirconia. Clinicians should choose the better prosthetic solution for the teeth they want to restore and replace. Both prosthetic dental crowns offer long-term success if applied following the manufacture guide limitations and suggestions.</jats:p> FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials The Scientific World Journal |
spellingShingle | Bramanti, Ennio, Cervino, Gabriele, Lauritano, Floriana, Fiorillo, Luca, D’Amico, Cesare, Sambataro, Sergio, Denaro, Deborah, Famà, Fausto, Ierardo, Gaetano, Polimeni, Antonella, Cicciù, Marco, The Scientific World Journal, FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials, General Environmental Science, General Biochemistry, Genetics and Molecular Biology, General Medicine |
title | FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials |
title_full | FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials |
title_fullStr | FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials |
title_full_unstemmed | FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials |
title_short | FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials |
title_sort | fem and von mises analysis on prosthetic crowns structural elements: evaluation of different applied materials |
title_unstemmed | FEM and Von Mises Analysis on Prosthetic Crowns Structural Elements: Evaluation of Different Applied Materials |
topic | General Environmental Science, General Biochemistry, Genetics and Molecular Biology, General Medicine |
url | http://dx.doi.org/10.1155/2017/1029574 |