Abstract
In this paper, locations of the intermediate hinge supports of a three-span rod compressed by the axial force constant along the rod length are searched at which the critical force reaches a maximum. Method of the study uses mainly qualitative results of the theory of stability of rod systems relating to the impact of the imposition and redistribution of constraints to their critical force. The qualitative characterizations of these locations, depending on the stiffness of end support, are developed and the characteristic qualitative features of the relevant buckling modes and corresponding critical forces are described. In particular discovered that under certain conditions the maximum critical force corresponds the special semicurved form of buckling, some fragments of which remain undeformed, while the remaining sections are bent in the shapes that are the solutions of simpler problems. The results allow a better understanding of the influence of the position of intermediate supports of three-span rod on its stability and use it in the design and operation of engineering structures.
Highlights
Locations of the intermediate hinge supports of a three-span rod compressed by the axial force constant along the rod length are searched at which the critical force reaches a maximum
Method of the study uses mainly qualitative results of the theory of stability of rod systems relating to the impact of the imposition and redistribution of constraints to their critical force
In particular discovered that under certain conditions the maximum critical force corresponds the special semicurved form of buckling, some fragments of which remain undeformed, while the remaining sections are bent in the shapes that are the solutions of simpler problems
Summary
При c cIII выполняется неравенство P P30 , означающее, что P30 является третьей КрС стержня OL , которой отвечает форма с двумя узлами A1 и A2 . Что особая КрС стержня OL , равная P c P20 теперь является второй в его спектре, а P20 – третьей (при c cI совпадающей со второй). Что КрС OX1B монотонно убывает при удалении опоры X1 от узла второй формы стержня OB .
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More From: Journal of Mechanical Engineering the National Technical University of Ukraine "Kyiv Polytechnic Institute"
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