Since　there　are　few　theoretical　models　to　describe　the　healing　process　of　electrochemical　deposition　method　at　the　micro-scale　level,　a　three-phase　micromechanical　model,　which　is　made　up　of　the　deposition　products,　water　and　intrinsic　concrete,　for　the　healed　saturated　concrete　is　presented　based　on　the　material＇s　microstructure　and　the　healing　mechanism.　To　quantitatively　describe　the　influence　of　the　deposition　products　on　the　macro-scale　properties　of　the　concrete,　multi-level　homogenization　scheme　is　presented　to　obtain　the　effective　properties　of　the　saturated　concrete　repaired　by　electrochemical　deposition　method　based　on　the　self-consistent　method.　Specifically,　the　properties　of　the　equivalent　inclusion　are　calculated　by　the　general　self-consistent　model　in　the　first　level　homogenization.　In　the　second　level　homogenization,　the　self-consistent　method　combined　with　the　Voigt　upper　bound　is　utilized　to　obtain　the　properties　of　the　repaired　concrete.　To　verify　the　correctness　of　micromechanical　framework,　the　predicting　results　are　compared　with　the　experimental　data　and　those　from　the　existing　models,　which　show　that　the　proposed　model　and　homogenization　methods　are　reasonable　and　acceptable.　©,　2015,　Chinese　Journal　of　Theoretical　and　Applied　Mechanics　Press.　All　right　reserved.