Organization of product tests in the microelectronic and optical-electronic industries by the impact method is considered. Two mathematical models: a circular plate under dynamic loading with predetermined initial conditions, and contact interaction of a falling mass and a barrier, are examined. The deflection function, curvature, and acceleration are determined. As the series for these characteristics may prove divergent, the problem is to secure sufficiently reliable results. The method of impact mechanics permits determination of the duration and force of the impact, estimation of the total energy of each mode in the expansion of the deflection function and preclusion of divergent series when determining the plate acceleration and curvature during the vibration process. In parallel, viscoelasticity is simulated with the aid of a fractional-differentiation operator, certain features of which are discussed. Representation of this operator with time-dependent order by ones with constant orders is considered. Three alternative approaches for determination of the eigenfrequency and damping decrement of a vibration process are examined. In particular, a method for calculating these characteristics under conditions of time-dependence and servo control of the order function is proposed.
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February 2008
Research Papers
Response of Viscoelastic Plate to Impact
J. Suzdalnitsky
J. Suzdalnitsky
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D. Ingman
J. Suzdalnitsky
J. Vib. Acoust. Feb 2008, 130(1): 011010 (8 pages)
Published Online: November 15, 2007
Article history
Received:
February 22, 2006
Revised:
February 7, 2007
Published:
November 15, 2007
Citation
Ingman, D., and Suzdalnitsky, J. (November 15, 2007). "Response of Viscoelastic Plate to Impact." ASME. J. Vib. Acoust. February 2008; 130(1): 011010. https://doi.org/10.1115/1.2731416
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