The　static　analysis　of　simply　supported　functionally　graded　material　rectangular　plates　is　presented　under　the　static　loading　by　using　an　improved　higher-order　shear　deformation　theory　by　considering　the　effect　of　transverse　stretching.　The　thickness　coordinate　z　is　added　to　the　power　functions　to　account　for　the　effect　of　transverse　stretching　based　on　the　third-order　shear　deformation　theory　with　the　assumption　of　zero　shear　stress　on　the　top　and　bottom　surfaces.　The　basic　equations　of　FGM　plate　have　been　derived　from　the　principle　of　virtual　work　and　Navier　method　is　employed　to　obtain　the　numerical　results　of　displacements　and　stresses　distributions　of　FGM　rectangular　plate　along　thickness　direction　under　the　static　loading.　The　results　are　compared　with　those　obtained　by　the　3D　exact　solution　theory　and　other　higher-order　shear　deformation　theories.　The　correctness　and　superiority　of　the　improved　higher-order　shear　deformation　theory　have　been　shown　by　considering　the　effect　of　transverse　stretching.　©　2018,　Editorial　Department　of　CJAM.　All　right　reserved.