Cable-membrane　constructions　typically　exhibit　significant　displacement　and　distortion　under　load　action,　and　the　cable-membrane　contact　results　in　relative　sliding.　In　this　paper,　the　interaction　force　between　cable　and　membrane　is　transferred　through　frictional　contact　action,　and　as　a　result,　the　friction　coefficient　must　be　taken　into　consideration　for　the　form-finding　and　load　analysis　of　air-supported　membrane　structures.　Eight　kinds　of　P-type　membrane　materials　commonly　used　in　engineering　were　chosen,　and　the　friction　coefficients　between　the　various　membrane　and　cable　materials　were　obtained.　The　connection　between　a　cable　and　a　membrane　of　an　air-supported　membrane　structure　is　considered　a　contact　problem,　and　its　initial　shape　analysis　and　wind　load　response　analysis　are　carried　out.　The　influence　of　the　friction　coefficient　of　a　cable　membrane　on　the　wind-induced　response　of　an　air-supported　membrane　structure　is　discussed,　and　the　results　are　compared　with　those　of　the　cable-membrane　binding　model　under　wind　load.