printlogo
ETH Zuerich - Homepage
Seminar for Applied Mathematics
  
Find Us | About Us | People at SAM
Contact | Sitemap | Help
Teaching & Student Matters | News & Events
Reports | Projects
print
  
ETH Zurich - D-MATH - SAM - Research Reports - Reports 1999 - Report 1999-18 
Research Reports
Reports 2012
Reports 2011
Reports 2010
Reports 2009
Reports 2008
Reports 2007
Reports 2006
Reports 2005
Reports 2004
Reports 2003
Reports 2002
Reports 2001
Reports 2000
Reports 1999
Report 1999-25
Report 1999-24
Report 1999-23
Report 1999-22
Report 1999-21
Report 1999-20
Report 1999-19
Report 1999-18
Report 1999-17
Report 1999-16
Report 1999-15
Report 1999-14
Report 1999-13
Report 1999-12
Report 1999-11
Report 1999-10
Report 1999-09
Report 1999-08
Report 1999-07
Report 1999-06
Report 1999-05
Report 1999-04
Report 1999-03
Report 1999-02
Report 1999-01
Reports 1998
Reports 1997
Reports 1996
Reports 1995
Reports 1994
Reports 1993
Reports 1992
Reports 1991

Report 1999-18

Fourier mode analysis of layers in shallow shell deformations

J. Pitkaeranta, A.-M. Matache and C. Schwab

Abstract: We investigate here the length scales of the boundary or interior layer effects in shell deformation. Quantitative information on the layers is obtained by considering two (simplified) `shallow' shell models corresponding to the `classical' three-field (Love-Koiter-Novozhilov), resp. five-field (Reissner-Naghdi) shell models. We start by analysing the layers as functions of the thickness of the shell, while keeping the other geometric parameters fixed. Having found the four limit Fourier modes we complete the analysis investigating systematically the layers length scales under more general assumptions, particularly when also the wave parameter is variable. Scaling properly the energy expressions, as indicated by the layer mode analysis, shell deformation energies characteristic to shell layers are found. These show how the layer is effectively seen by the finite element solver and can be useful in the analysis of numerical locking effects in the FEM approximation of shell layers.

Paper: Available as PDF (720 KB) or as hardcopy to order reports@sam.math.ethz.ch.

 

Wichtiger Hinweis:
Diese Website wird in älteren Versionen von Netscape ohne graphische Elemente dargestellt. Die Funktionalität der Website ist aber trotzdem gewährleistet. Wenn Sie diese Website regelmässig benutzen, empfehlen wir Ihnen, auf Ihrem Computer einen aktuellen Browser zu installieren. Weitere Informationen finden Sie auf
folgender Seite.

Important Note:
The content in this site is accessible to any browser or Internet device, however, some graphics will display correctly only in the newer versions of Netscape. To get the most out of our site we suggest you upgrade to a newer browser.
More information

© 2012 Mathematics Department | Imprint | Disclaimer | 4 January 2012
top