n　order　to　study　the　constitutive　model　of　hybrid　fiber　concrete　(HFRC)　and　the　law　of　damage　evolution,　the　damage　constitutive　model　of　-PP　and　PVA-PP　mixed　fiber　with　steel　is　studied　by　means　of　statistical　method　and　energy　method.　The　damage　variable　correction　coefficient　is　introduced　to　optimize　the　statistics　based　method.　The　energy　method　is　used　to　deduce　the　constitutive　model　of　material　damage　based　on　the　SIR　model　and　the　formula　and　to　discuss　the　physical　meaning　of　the　parameters.　At　the　same　time,　the　accuracy　of　the　model　is　verified　by　a　single　axial　compression　test.　The　results　show　that　the　stress　strain　curve　obtained　by　the　statistical　method　is　in　good　agreement　with　the　test　results　when　the　strain　is　relatively　small.　When　the　strain　is　large,　the　result　is　deviant　from　the　test　result.　The　calculation　result　is　more　accurate　after　the　damage　deformation　correction　coefficient　is　introduced.　The　calculation　of　the　energy　method　based　on　the　SIR　model　is　simple,　the　result　is　high　and　the　strain　is　still　high.　The　residual　stress　of　the　specimen　can　be　reacted.　The　two　methods　can　be　used　to　calculate　the　compression　damage　constitutive　model　of　hybrid　fiber　reinforced　concrete,　and　it　can　be　applied　in　engineering.　(C)　2020　Elsevier　Ltd.　All　rights　reserved.