Wood-to-Concrete Joints Using Steel Connectors: Experimental Evaluation

Abstract

Over the last decades, modern technology to build wood structures have been substantially developed. Building solutions for floor systems of wood-concrete mixed T-beams with wood web and concrete flange stand out among these technologies. This work describes an experimental investigation of the performance of bond connectors made of round steel bars for wood-concrete mixed elements. Symmetric three-member specimens were built. The middle member was made of concrete and the other two were made of wood. The first kind of connector consisted of steel bar designed as straight pins with head, normally driven through the wood. The second kind consisted of arc-shaped connectors directly embedded into the wood or bonded using epoxy adhesive. The specimens were then tested in compression. The compressive strength and the force-displacement curve were obtained, in order to evaluate the failure mode and obtain the stiffness in the ultimate (Ku) and serviceability (Ks) limit states. The stiffness values were calculated in the interval corresponding to the secant straight line between, respectively, 10–40 and 10–70% of the ultimate strength. The obtained results indicate high strength and ductile failure mode for all of the cases. Bond stiffness gains were verified when using the arch-shaped connectors.