The wear phenomenon is one of the essential factors in the failure of industrial components. Therefore, it is vital to investigate the wear behavior of engineering materials and metal matrix composites (MMC). In this article, Al 1050/Brass (70/30)/Al 1050 composite sheets were fabricated using the accumulative roll bonding (ARB) process. The ARB process was performed at ambient temperature without any heat treatment between the cycles in 5 passes. Mechanical properties, fracture surface, and wear behavior of the specimens were also measured. The tensile strength of the Al/Brass/Al sandwich sample is higher than the primary aluminum and less than the original brass. As the number of ARB cycles increases, the tensile strength and elongation changes have no significant trend. The highest ultimate tensile strength was obtained in the first cycle at 288 MPa, which is about 3.5 times the primary aluminum. The highest hardness was also obtained for aluminum and brass after the end of the fourth cycle. Pin-on-disk wear tests were applied with two different forces on specimens, and as an important achievement, the results show that by using Al/Brass/Al composite can increase the wear resistance of aluminum. Worn surface morphology and wear debris of samples were also examined by scanning electron microscopy (SEM). The optical microscope's checking of the layers shows that the brass layer is completely crushed in the aluminum field from the second cycle onwards. Fracture surface images of the samples also show both ductile and brittle fractures.