Michael L. Accorsi scite author profile

We present a parallel computational strategy for carrying out 3-D simulations of parachute¯uid±structure interaction (FSI), and apply this strategy to a round parachute. The strategy uses a stabilized space-time ®nite element formulation for the¯uid dynamics (FD), and a ®nite element formulation derived from the principle of virtual work for the structural dynamics (SD). The¯uid±structure coupling is implemented over compatible surface meshes in the SD and FD meshes. Large deformations of the structure are handled in the FD mesh by using an automatic mesh moving scheme with remeshing as needed. Ó

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Finite element analysis of membrane wrinkling

Accorsi

Leonard

2001

Int. J. Numer. Meth. Engng.

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A progressive failure theory for woven polymer-based composites subjected to dynamic loading

Hufner

Accorsi

2009

Composite Structures

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Fluid-Structure Interactions of a Round Parachute: Modeling and Simulation Techniques

Stein¹,

Benney²,

Tezduyar

et al. 2001

Journal of Aircraft

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A parallel computational technique is presented for carrying out three-dimensional simulations of parachute uid-structure interactions, and this technique is applied to simulations of airdrop performance and control phenomena in terminal descent. The technique uses a stabilized space-time formulation of the time-dependent, three-dimensional Navier-Stokes equations of incompressible ows for the uid dynamics part. Turbulent features of the ow are accounted for by using a zero-equation turbulence model. A nite element formulation derived from the principle of virtual work is used for the parachute structural dynamics. The parachute is represented as a cable-membrane tension structure. Coupling of the uid dynamics with the structural dynamics is implemented over the uid-structure interface, which is the parachute canopy surface. Large deformations of the structure require that the uid dynamics mesh is updated at every time step, and this is accomplished with an automatic mesh-moving method. The parachute used in the application presented here is a standard U.S. Army personnel parachute.

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Power flow in two- and three-dimensional frame structures

Beale

Accorsi

1995

Journal of Sound and Vibration

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