In　order　to　meet　the　demand　of　three-way　vibration　reduction　of　metal　rubber,　a　pot-shaped　metal　rubber　was　designed　and　prepared　via　introducing　spatial　configuration.　The　method　of　controlling　variables　to　study　the　effect　of　preparation　process　parameters　such　as　relative　density,　forming　angle,　wire　diameter　and　compression　on　the　static　mechanics　of　pot-shaped　metal　rubber　was　investigated,　and　the　influence　of　three　preparation　process　parameters　on　the　pot-shaped　metal　rubber　axial　and　radial　static　mechanics　was　revealed　by　orthogonal　test　method.　The　results　show　that　the　sequence　that　affects　the　axial　static　mechanical　properties　of　the　test　piece　is　forming　angle,　relative　density,　and　wire　diameter;　the　sequence　that　affects　the　radial　static　mechanical　properties　of　the　test　piece　is　relative　density,　wire　diameter,　and　the　forming　angle.　©　2023　Journal　of　Mechanical　Strength.　All　rights　reserved.