The commonly obturation material used in conventional endodontics is gutta-percha (GP). Although various obturation systems have been developed, studies with using GP and sealers have revealed that no suitable technique can offer an adequate seal of the root canal system. GP has no dentinal adhesion, lacks sufficient rigidity, and shrinks after thermal obturation. In order to achieve the aim of dentin bonding, the employment of polymer technology have led to the recent development of resin-based obturation materials. Our research team has developed a novel polymer-based root canal obturation system. Thermoplastic polyurethane (TPU) was synthesized and zinc oxide (ZnO) was used as fillers to form the ZnO/ TPU composite. For the resin part of sealer, visible-light photopolymerizable urethane-acrylate (UA) oligomer was synthesized and mixed with dilute monomer to form UA/ TPGDA resin. The purpose of this study was to investigate the thermal, mechanical properties and bonding strength of TPU polymer-based obturation materials as well as commercial polymer-based obturation materials. The results showed that tensile strength and elastic modulus of the ZnO/TPU composites were higher than that of GP and Resilon. Enthalpy change of the ZnO/TPU composite during phase transition was similar to GP but lower than Resilon. For the push-out bonding test, the results revealed that the group of UA/ PU had the highest bonding strength among test materials. From the micrographs of SEM, UA based sealer was able to flow into dentinal tubules. Therefore, ZnO/TPU composite and UA oligomer have great potential in the materials of root canal obturation, no matter in mechanical, thermal properties or bonding strength.