Diese Seite ist aus Gründen der Barrierefreiheit optimiert für aktuelle Browser. Sollten Sie einen älteren Browser verwenden, kann es zu Einschränkungen der Darstellung und Benutzbarkeit der Website kommen!
Geophysics Homepage
Search:
Log in
print

Analysis of functionally graded thick truncated cone with finite length under hydrostatic internal pressure

Asemi, K., M. Akhlaghi, M. Salehi, and S.K. Hosseini Zad (2011), Analysis of functionally graded thick truncated cone with finite length under hydrostatic internal pressure, ARCHIVE OF APPLIED MECHANICS, 81(8), 1063-1074, doi:10.1007/s00419-010-0472-1.

Abstract
Finite Element Method based on Rayleigh–Ritz energy formulation is applied to obtain the elastic behavior of functionally graded thick truncated cone. The cone has finite length, and it is subjected to axisymmetric hydrostatic internal pressure. The inner surface of the cone is pure ceramic and the outer surface is pure metal, and the material composition varying continuously along its thickness. Using this method, the effects of semi-vertex angle of the cone and the power law exponent on distribution of different types of displacements and stresses are considered.
Further information
BibTeX
@article{id1758,
  author = {K. Asemi and M. Akhlaghi and M. Salehi and S.K. Hosseini Zad},
  journal = {ARCHIVE OF APPLIED MECHANICS},
  number = {8},
  pages = {1063-1074},
  title = {{Analysis of functionally graded thick truncated cone with finite length under hydrostatic internal pressure}},
  volume = {81},
  year = {2011},
  language = {en},
  url = {http://www.springerlink.com/content/36k8411132289676/},
  doi = {10.1007/s00419-010-0472-1},
}
EndNote
%0 Journal Article
%A Asemi, K.
%A Akhlaghi, M.
%A Salehi, M.
%A Hosseini Zad, S.K.
%D 2011
%N 8
%V 81
%J ARCHIVE OF APPLIED MECHANICS
%P 1063-1074
%T Analysis of functionally graded thick truncated cone with finite length under hydrostatic internal pressure
%U http://www.springerlink.com/content/36k8411132289676/
ImprintPrivacy PolicyContact
Printed 15. Oct 2019 03:46