Timber-concrete-composite (TCC) floors, composed of timber and concrete layers connected by a shear connector are a successful example of hybrid structural components and are commonly used in practical applications.The connection of the two components is usually achieved with mechanical fasteners where relative slip cannot be prevented and the connection cannot be considered rigid. The growing availability of panel-type engineered wood products (EWPs) offers versatility in terms of architectural expression and structural and building physics performance. Preceding research determined the properties for a range of TCC connector systems in several EWPs using full-scale short-term bending tests. In the research presented herein, nine TCC floor segments (one specimens of each previously investigated configuration) were exposed to serviceability loads for approximately 2.5 years. During this time, the environmental conditions and the deflections of each floor were monitored. After having been long-term loaded, the floor segments were tested to failure. The results show an increase of deflection over time but neither bending stiffness,load-carrying capacity nor vibration performance were impacted by the long-term loading. This research provides input data to develop design guidance for TCC floors.