Theoretical and experimental study of efficient control of vibrations in a clamped square plate

In this paper, we seek to develop an efficient controller for vibration reduction in a small square plate clamped on all edges. The plate mimics a piece of an aircraft's skin. Small plate size results in higher natural frequencies than normally investigated in literature. Such high-frequency systems

The authors previously investigated the e!ects of both shear and normal strains in the viscoelastic core layer on modal properties of sandwich plates under hinged boundary conditions. For such boundary conditions, analytic formulation of characteristic equations was possible. Agreeing that most real

In the experimental analysis of beams and plates the realization of classical boundary conditions is one of the crucial prerequisites which governs the accuracy and reliability of the results obtained. The support structure used in the experimental set-up invariably has a small amount of flexibility

Raman spectroscopy and the self-consistent reaction Ðeld (SCRF) theory were used to study structural and vibrational features of the amino acid L-asparagine in and solutions. Ab initio methodology at the RHF/6-H 2 O D 2 O 31 + G\* level were used to evaluate the minimum energy structure, quadratic f