This research aims to investigate the effect of interfacial roughness and adhesive thickness on adhesive joint strength as well as failure mechanism by using molecular dynamics simulation. The polyethylene (PE) is adhesive and metal plates are adherend. The strength of adhesive joints is determined by applying tensile and shear loading on adhesive joint. In addition, the shear loading includes transverse and longitudinal according to the rough interface direction. When joints are loaded in tension and adhesive failure, because rough interface would cause the stress concentration on the interface, the adhesive joint strength would decrease accordingly. When the failure mode is cohesive failure, the tensile strength has no significant difference between smooth interface and low rough interface joint. The high rough interfacial surface would affect the density distribution of PE polymer resulting in the reduction of adhesive joint strength. In addition, the adhesive thickness basically does not influence the strength when the failure mode is adhesive failure. For cohesive failure, because the adhesive density distributions are influenced by the adhesive thickness, the thicker adhesive exhibits the lower adhesive joint strength. When joints are loaded in transverse shear, the rough interface increases the transverse shear strength because of the interlocking effect between adherend and adhesive. When the interface are smooth and low roughness, the adhesive thickness does not effect on transverse shear strength since the failure mode are adhesive failure. High roughness lead to the adhesive density distribution more uniform so that the failure mode becomes cohesive failure and the transverse shear strength are almost same although the adhesive thicknesses are different. When joints are loaded in longitudinal shear, the contact area can be increased by raising the interfacial roughness so that the longitudinal shear strength increases. In addition, the adhesive thickness does not affect the longitudinal shear strength because all the cases are adhesive failure.