Analysis of the dynamic behavior of the connectors formed by bonded-in steel rods for log-concrete composite deck bridges

In this work was evaluated the structural behavior of log-concrete composite deck bridge system, with emphasis in the dynamic analysis of the shear connectors using two types of connectors: \"vertical\" and \"X\". Two main approaches were considered, numeric and experimental, besides a wide theoretical study about the theme with base in the available literature. The experimental studies were accomplished in specimens of wood, wood-concrete specimens and wood-concrete beams. All of the specimens and beams were subjected to static and dynamic loads considering several materials in the composed connection system. The numeric analyze of the composed systems was made with base in the method of the finite elements using the software ANSYS. The experimental results showed that both connection systems reduced stiffness really for 1 x \'10 POT.6\' applied load cycles, and the largest portion of this reduction happens in the initial cycles. Besides, the system of \"vertical\" connection presented larger execution easiness when compared with the system \"X\" connection. The numeric results showed that the reduced stiffness of the connection systems happened due to the accumulation of the located damage of the materials in the areas of the connectors. The numeric and experimental results comparison showed a good agreement. It was proposed values for the maximum and minimum levels of cyclical load, as well as for the frequency to be used in the dynamic tests for the verification of the reduced stiffness of the composite system of connection. (AU)