To　select　appropriate　combinations　of　antifriction　and　wear-resistant　materials　for　key　tribopairs　in　seawater　hydraulic　valves,　the　tribocorrosion　behavior　of　six　kinds　of　corrosion-resistant　alloys　sliding　against　a　carbon　fiber/polytetrafluoroethylene/graphite　(CF/PTFE/graphite)-filled　polyetheretherketone　(CF-PEEK)　composite　under　artificial　seawater　lubrication　was　comparatively　investigated　by　using　a　pin-on-disk　friction　tester　and　electrochemical　workstation.　The　results　show　that　AISI　316,　AISI　630　and　chromium-plated　Ti6Al4V　exhibit　better　tribological　behavior　than　Ti6Al4V　and　nitrided　Ti6Al4V　under　dry　friction,　distilled　water　and　artificial　seawater　conditions.　Besides,　Ti6Al4V　exhibits　better　corrosion　resistance　than　other　corrosion-resistant　alloys　in　both　static　corrosion　and　tribocorrosion　conditions,　and　the　chromium　plating　process　significantly　accelerates　the　Ti6Al4V　corrosion　rate　in　seawater.　Moreover,　the　corrosion-induced　wear　is　higher　than　the　wear-induced　corrosion.　In　addition,　the　contribution　of　corrosion-induced　wear　to　synergetic　weight　loss　is　more　than　85%　for　all　the　alloys　under　tribocorrosion　in　seawater.　Consequently,　material　combinations　of　AISI　630/CF-PEEK　and　AISI　316/CF-PEEK　could　preferentially　be　used　in　seawater　hydraulic　valves.