The　tensile　strength　and　fatigue　crack　propagation　rate　tests　were　carried　out　for　cold　rolled,　warm　rolled　and　full　annealed　A1-6Mg-0.8Zn-0.5Mn-0.2Zr-0.2Er　alloy.　The　microstructure　before　fatigue　test,　the　fatigue　fracture　and　crack　propagation　path　were　observed　by　electron　back-scattered　diffraction　(EBSD),　transmission　electron　microscope　(TEM)　and　scanning　electron　microscope　(SEM)　in　order　to　analyze　the　effects　of　microstructure　on　tensile　property　and　fatigue　crack　propagation　rate.　The　results　show　that　the　fatigue　crack　propagation　rate　of　the　warm　rolled　alloy　with　high　strength　is　much　slower　than　that　of　the　cold　rolled.　The　microstructure　characterization　shows　that　the　warm　rolled　alloy　has　more　subgrain　boundaries　than　the　cold　rolled　and　full　annealed　alloys　due　to　dynamic　recovery　during　warm　rolling.　This　kind　of　microstructure　can　improve　the　yield　strength　and　fatigue　crack　propagation　resistance.