November 1967
Journal of Engineering for Industry
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November 1967
Journal of Engineering for Industry
November 1967
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21 Citations
Journal of Engineering for Industry
The constrained-layer damping mechanisms on plates, beams, and tubular structures have been experimentally studied with well characterized viscoelastic materials. The Kerwin analysis [1] on plate damping has been extensively verified; important variables can now be individually controlled to achieve optimum performance. The validity of extending the plate theory to box-beams has been established; certain preferred cross-sectional geometries for highly damped beams are now defined. Experimental evidence has shown that concentric treatments are ineffective to dampen bending vibrations of tubular structures. Analyses of the strength of laminated composites have shown that structural integrity can be retained. Equations have been derived to predict the static and dynamic rigidities of such laminates.
... Such a philosophy is epitomized by sandwich construction which, in its most usual form, is characterized by a thick lightweight core that is bonded between two thin faceplates of high strength material. An early analysis of the vibrational behavior of sandwich beams was given by Kerwin [1] in the late nineteen fifties and subsequently by a number of authors using a variety of different approaches [2][3][4][5][6][7], all of which allowed only for transverse inertia. The addition of longitudinal and rotary inertia appears to have been put forward first by Yu [8] in the context of sandwich plate vibration. ...
November 1967
Journal of Engineering for Industry