Sentence examples for rotating thickness from inspiring English sources

This paper presents a frequency-domain formulation for predicting noise radiated from the rotating thickness and loading sources in uniform subsonic inflow with arbitrary direction.

By applying suitable electrical signals to the four sectors, a traveling rotating thickness deformation is excited, and if the structure is excited at its natural flexural frequency, a well-sustained traveling rotating flexural deformation takes place in the Langevin vibrator.

Inelastic stresses and deformations are calculated for rotating variable thickness disks described by two different commonly used disk profile functions i.e. power and exponential forms.

The influences of rotating speed, thickness ratio, setting angle and hub radius ratio on the resonant frequencies and modal system loss factors are presented.

The effects of different rotating speed, thickness ratio and loss factor of the VEM as well as different controller gain on the damped frequency and damping ratio are presented.

These simulations of Boussinesq convection and dynamo action are carried out in thick, rotating spherical shells with thickness D, rotation rate Ω, and no-slip boundaries.

The results are verified by comparing with those of uniform thickness rotating solid disks available in the literature.

A computational model is developed to investigate inelastic deformations of variable thickness rotating annular disks mounted on rigid shafts.

Analytical solution is obtained and used to calculate elastic limit angular velocities of variable thickness rotating annular disks and annular disks with rigid inclusion.

An efficient numerical solution procedure is designed and used to obtain the elastic limit angular velocities of variable thickness rotating solid disks.

By projecting the deposition profile onto the rotating wafers, the thickness uniformity as a function of reactor system operating parameters also is examined.