Structural Verification Modeling of a Tension Cone Inflatable Aerodynamic Decelerator
Loading...
Author(s)
Tanner, Christopher L.
Cruz, Juan R.
Braun, Robert D.
Advisor(s)
Editor(s)
Collections
Supplementary to:
Permanent Link
Abstract
Verification analyses were conducted on membrane structures pertaining to a tension
cone inflatable aerodynamic decelerator using the analysis code LS-DYNA. The responses of
three structures - a cylinder, torus, and tension shell - were compared against linear theory
for various loading cases. Stress distribution, buckling behavior, and wrinkling behavior
were investigated. In general, agreement between theory and LS-DYNA was very good for
all cases investigated. These verification cases exposed the important effects of using a linear
elastic liner in membrane structures under compression. Finally, a tension cone wind tunnel
test article is modeled in LS-DYNA for which preliminary results are presented. Unlike data
from supersonic wind tunnel testing, the segmented tension shell and torus experienced
oscillatory behavior when subjected to a steady aerodynamic pressure distribution. This
work is presented as a work in progress towards development of a fluid-structures
interaction mechanism to investigate aeroelastic behavior of inflatable aerodynamic
decelerators.
Sponsor
Date
2010-04
Extent
Resource Type
Text
Resource Subtype
Paper
Rights Statement
Unless otherwise noted, all materials are protected under U.S. Copyright Law and all rights are reserved