High　stiffness　and　superior　energy　consumption　have　consistently　been　primary　research　focuses　in　the　field　of　damping　materials.　Hence,　this　work　presented　an　innovative　interpenetrating　phase　composite　(IPC)　crafted　from　wound　elastic　entangled　metallic　porous　material　and　silicone　rubber.　The　proposed　composite　effectively　integrates　the　unique　properties　of　the　original　materials,　showcasing　a　seamless　blend.　Dynamic　experimental　tests　were　conducted　to　analyze　the　dynamic　compression　mechanical　behavior　of　the　composites,　revealing　that　the　composites　exhibit　excellent　energy　consumption　capabilities　and　elevated　stiffness　characteristics.　The　improvement　in　both　stiffness　and　damping　characteristics　is　attributed　to　the　addition　of　silicone　rubber,　which　solidifies　the　structure　of　the　composites.　The　introduction　of　interfacial　friction　results　from　maintaining　compression,　sliding,　and　other　frictional　interactions　among　the　original　spiral　coils.　Notably,　the　composites　also　display　exceptional　fatigue　resistance.　Overall,　this　work　demonstrates　the　potential　to　concurrently　achieve　enhanced　stiffness　and　superior　energy　consumption　through　the　use　of　entangled　metallic　porous　material　and　silicone　rubber.