Flutter boundaries for pairs of low pressure turbine blades

The aerodynamic damping of a modern LPT airfoil is compared to the one obtained when pairs of blades are forced to vibrate as a rigid body to mimic the dynamics of welded-pair assemblies. The stabilizing effect of this configuration is shown by means of two-dimensional simulations. The modal characteristics of three bladed-disk models that differ just in the boundary conditions of the shroud are compared. These models are representative of cantilever, interlock and welded-pair designs of rotating parts. The differences in terms of frequency and mode-shape of the three models are sketched. Finally their relative merits from a flutter point of view are discussed using the 2D aerodynamic damping characteristics.