This work focuses on techniques to simulate the unfolding of a parachute or
parafoil during the transition from the deployment to the inflation phases
. Special pseudo-flexural elements are locally patched onto the basic grid
of finite elements to simulate the unfolding behavior without adding rotati
onal degrees of freedom. These special elements are local to, and move with
, the kink in a suspension line or fold-line in a membrane and stabilize th
e convergence properties as constrained unfolding occurs. Examples are give
n to validate and demonstrate capabilities of these special elements for us
e in simulations of parachute dynamics. (C) 2000 Civil-Comp Ltd. and Elsevi
er Science Ltd. All rights reserved.