S. V. Vetoshkin, Yu. V. Bayandin, O. B. Naimark

OPTIMIZING THE REINFORCEMENT OF A COMPOSITE CYLINDRICAL SHELL AS APPLIED TO DYNAMIC LOADING CONDITIONS

The manufacture of composite products often requires using combinations of several materials, forming a multilayer structure with the layers stacked in different direction, proper selection of the stacking sequence, etc. Due to these features, the process of developing composite structures is more time-consuming than the production of conventional materials.
This paper describes a method for selecting the optimal characteristics of a composite material by studying the behavior of the structure under complex dynamic loads. The results of numerical simulation have been used to develop a model of a dynamically loaded composite shell of revolution with optimal material characteristics.

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