Abstract
Vibration impact systems are widely used in various branches of engineering. Basic specifications of these systems are vibration and shock resistance, and speed of operation. The paper presents an algorithm for the optimal design of vibration impact systems with distributed parameters. Elastic links are sampled by the finite element method. The optimal design of the system modelled by means of the Newmark direct integration method is accomplished by the gradient projection method. Optimal shapes of minimum mass structures allow to shorten transient conditions of motion of a vibration impact system.
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