This article is cited in 2 papers

Numerical analysis of the flutter of a shallow shell

S. D. Algazin^a, I. A. Kiiko<sup>b

a</sup> Moscow State Institute of Engineering and Physics, 115409, Moscow
^b Moscow State Technical University, 105839, Moscow

Abstract: The stability of vibrations of a shallow shell that is rectangular in plant in a gas flow is studied for an arbitrary vector of flow velocity. Mathematically, the problem is shown to reduce to an ill-conditioned computational problem. To solve this problem, we propose a numerical saturation-free algorithm that allows one to obtain a sufficiently accurate solution for a grid containing 169 (13 $\times$ 13) nodes. In calculations for cylindrical and spherical shallow shells, new mechanical effects concerning the vibration modes and the dependence of the critical flutter velocity on the direction of the flow-velocity vector were found.

UDC: 539.3:534.1

Received: 22.01.1998
Accepted: 27.05.1998

 English version: Journal of Applied Mechanics and Technical Physics, 1999, 40:6, 1082–1087