The　structures　evolved　by　creatures　to　adapt　to　the　specific　living　environment　have　excellent　mechanical　properties.　Studying　from　nature,　we　can　get　inspiration　to　design　the　structure　with　unparalleled　mechanical　properties.　This　paper　proposed　a　new　multi-bionic　strategy,　which　combined　the　face　centered　cubic　(FCC)　structure　with　light　weight　and　high　specific　strength　and　the　concentric　circle　structure　with　high　toughness.　Those　two　structure　were　inspired　by　the　arrangement　of　metal　atoms　and　bone　respectively.　The　multi-bionic　metamaterials　with　different　ratios　of　soft　phase　material　were　prepared　by　3D　printer.　The　force　displacement　curves　of　the　metamaterials　were　obtained　by　quasi-static　compression　experiment,　and　compared　with　the　lattice　structure　made　of　pure　hard　phase　material.　In　addition,　the　failure　behavior　of　the　metamaterials　and　the　effect　of　the　concentric　soft　and　hard　rods　on　the　toughness　and　energy　absorption　performance　of　the　metamaterials　were　studied.　Results　show　that　for　a　metamaterial　with　soft　phase　ratio　of　20%,　the　strain　when　rods　begin　to　break　and　absorbed　energy　are　2　times　and　3.8　times　that　of　the　pure　hard　phase　lattice,　respectively.　The　design　strategy　is　not　only　limited　to　the　combination　of　the　two　structures　in　this　work,　but　can　also　guide　the　combination　of　more　biological　structures　to　optimize　and　customize　the　performance　of　metamaterials.