Localized Structures in Indented Shells: A Numerical Investigation

Author(s)

Nasto, Alice Meite; Reis, Pedro Miguel

Abstract

We present results from a numerical investigation of the localization of deformation in thin elastomeric spherical shells loaded by differently shaped indenters. Beyond a critical indentation, the deformation of the shell ceases to be axisymmetric and sharp structures of localized curvature form, referred to as “s-cones,” for “shell-cones.” We perform a series of numerical experiments to systematically explore the parameter space. We find that the localization process is independent of the radius of the shell. The ratio of the radius of the shell to its thickness, however, is an important parameter in the localization process. Throughout, we find that the maximum principal strains remain below 6%, even at the s-cones. As a result, using either a linear elastic (LE) or hyperelastic constitutive description yields nearly indistinguishable results. Friction between the indenter and the shell is also shown to play an important role in localization. Tuning this frictional contact can suppress localization and increase the load-bearing capacity of the shell under indentation.

Date issued

2014-10

URI

http://hdl.handle.net/1721.1/110696

Department

Massachusetts Institute of Technology. Department of Civil and Environmental Engineering
Massachusetts Institute of Technology. Department of Mechanical Engineering

Journal

Journal of Applied Mechanics

Publisher

ASME International

Citation

Nasto, Alice and Reis, Pedro M. “Localized Structures in Indented Shells: A Numerical Investigation.” Journal of Applied Mechanics 81, 12 (October 30, 2014): 121008 © 2014 ASME International

Version: Final published version

ISSN

0021-8936

1528-9036