A new type of replaceable blade and adjustable pitch composite marine propeller was developed in this paper. Two small out board propeller were considered in the analysis. Works of development includes design, manufacture, testing, analysis and structural improvement. The softwares, I-Deas, ANSYS and PSF2, were used in the CAD, structure and fluid numerical evaluation. Designed data was transfer to CNC cutting machine to produce three injection molds for the manufacture of parts of composite propeller. Matrix of Nylon, PPS and glass fiber with 2mm length were used in the first propeller. The so called GV-5H material was used in the second propeller. A simple one-point loading test was applied in the structural testing of composite propeller blade. It is found that too much deflection occurred in the Nylon propeller and too brittle in PPS propeller, though all in safety. However, the strength of GV-5H propeller is the best of these three. Increasing of connecting area of blade and hub and the thickness of blade were analyzed to improve the strength of composite propellers.