The　present　investigation　involves　the　fabrication　of　a　new　metal　matrix　composite　incorporating　rice　husk　ash　(RHA)　particles　as　reinforcements　via　combined　powder　metallurgy　and　accumulative　roll　bonding　(ARB)　process.　The　first　stage　of　this　research　involves　the　production　of　a　new　laminated　composite　strip.　Subsequently,　the　focus　shifted　toward　investigating　the　physical,　mechanical,　and　wear　properties　of　these　composites.　ABAQUS　software　is　used　to　study　the　numerical　simulation　of　the　ARB　process.　According　to　the　obtained　results,　higher　strength　and　wear　resistance　composites　were　generated　at　higher　cycles　and　RHA　wt.%.　The　strength　of　the　samples　fabricated　with　10wt.%　of　RHA　reached　180MPa　registering　42%　improvement.　Also,　wear　resistance　and　hardness　are　enhanced　by　increasing　the　number　of　ARB　cycles.　Furthermore,　the　scanning　electron　microscope　(SEM)　surface　morphology　of　samples　was　used　to　study　the　fracture　surfaces　and　bonding　quality　in　the　vicinity　of　the　layer.