Abstract
This paper is concerned with the experimental mechanical analysis of a new design of a joint for a main components of a upper deck of a road bridge. These components are subject to the compression state stress induced by the weight and the load acting on the road. Each upper deck of a bridge (positioned on each side of the bridge) is composed by four tubular structures that must be joint each together. The joint must to take in to account many aspects, for example that the length of each component is not the same (because, obviously, there is a mechanical tolerance). This phenomena induce different compression stress on each component and so is very important non only the critical buckling load but also the post buckling behaviour of the structure. It is very important that if a single tubular structure reaches the critical load of instability, it still has load capacity . This is to avoid that, in the case where a column reaches the instability, the entire load acting on a column increase the load on the remaining three. For this purpose many different geometrical solutions have been designed (elaborated by fem analyses and successively tested experimentally). This work reports the main experimental results on the best joint solution and how this increase the load capacity and the displacement respect to the solution without this flange.
Highlights
It is very important that if a single tubular structure reaches the critical load of instability, it still has load capacity
EPJ Web of Conferences The goal of this work is to verify a special flange of interface between the tubular structures, and in particular how this geometrical solution increase the load capacity in the post buckling area in the force/displacement diagram
This paper reports a series of experimental results concerning a new type of connection between tubular element
Summary
The main factor is the initial imperfection, always present in the real structures, whose size or intensity change both the critical buckling load and both the post buckling behaviour [8,9,10]. For this reason the experimental tests are very important and indispensable for the most important works. EPJ Web of Conferences The goal of this work is to verify a special flange of interface between the tubular structures, and in particular how this geometrical solution increase the load capacity in the post buckling area in the force/displacement diagram. The main steps of this experimental work are: design a specific bench tests; evaluation the mechanical behaviour for the flange and the tubular structure individually, and study the performance for tube joint with the flange
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