Detail publikace

Stress Strain Analysis Of Save Firsth Molar Tooth With Cavity Of Class II.

VALÁŠEK, J. ŘEHÁK, K. KRPALEK, D. MARCIÁN, P. FLORIAN, Z.

Originální název

Stress Strain Analysis Of Save Firsth Molar Tooth With Cavity Of Class II.

Anglický název

Stress Strain Analysis Of Save Firsth Molar Tooth With Cavity Of Class II.

Jazyk

en

Originální abstrakt

The presented paper is focused on the stress strain analysis of the save tooth. For this problem computational modelling was chosen with using finite element method. The tooth is modelled from the dentin and enamel with cavity class II. The size of dental cavity is considered in three sizes and three types of filling material. The model of physiological tooth was created too. Force was prescribed on the occlusal surface of tooth. The analysis of results shows that from different filling materials and their interaction with the dental tissues amalgam is from mechanical aspect the best material for saved tooth in molar segment.

Anglický abstrakt

The presented paper is focused on the stress strain analysis of the save tooth. For this problem computational modelling was chosen with using finite element method. The tooth is modelled from the dentin and enamel with cavity class II. The size of dental cavity is considered in three sizes and three types of filling material. The model of physiological tooth was created too. Force was prescribed on the occlusal surface of tooth. The analysis of results shows that from different filling materials and their interaction with the dental tissues amalgam is from mechanical aspect the best material for saved tooth in molar segment.

Dokumenty

BibTex


@inproceedings{BUT72877,
  author="Jiří {Valášek} and Kamil {Řehák} and David {Krpalek} and Petr {Marcián} and Zdeněk {Florian}",
  title="Stress Strain Analysis Of Save Firsth Molar Tooth With Cavity Of Class II.",
  annote="The presented paper is focused on the stress strain analysis of the save tooth. For this problem computational modelling was chosen with using finite element method. The tooth is modelled from the dentin and enamel with cavity class II. The size of dental cavity is considered in three sizes and  three types of filling material. The model of physiological tooth was created too. Force was prescribed on the occlusal surface of tooth. The analysis of results shows that from different filling materials and their interaction with the dental tissues amalgam is from mechanical aspect the best material for saved tooth in molar segment.",
  address="Institute  of Physics of Materials, Academy of Science of the Czech Republic",
  booktitle="13th Conference APPLIED MECHANICS 2011",
  chapter="72877",
  howpublished="print",
  institution="Institute  of Physics of Materials, Academy of Science of the Czech Republic",
  year="2011",
  month="april",
  pages="227--230",
  publisher="Institute  of Physics of Materials, Academy of Science of the Czech Republic",
  type="conference paper"
}