Add to ORKGThis report outlines the procedures that were employed in fabricating prototype graphite-epoxy composite prop fan blades. These blades were used in wind tunnel tests that investigated prop fan propulsion system interactions with a missile airframe in order to study the feasibility of an advanced-technology-propfan-propelled missile. Major phases of the blade fabrication presented include machining of the master blade, mold fabrication, ply cutting and assembly, blade curing, and quality assurance. Specifically, four separate designs were fabricated, 18 blades of each geometry, using the same fabrication technique for each design
Some of the single rotation propfan model wind tunnel aeroelastic findings from the experimental par...
The ability to accurately manufacture large complex shapes in a consistent and repeatable manner has...
The results of impact tests on large, fiber composite fan blades for aircraft turbofan engine applic...
One of the propulsion concepts being investigated for future cruise missiles is advanced unducted pr...
The Naval Weapons Center at China Lake, California is currently evaluating a counter rotating propfa...
Composite wind tunnel blades are frequently fabricated by hand layup of prepreg fabrics. Though well...
The Naval Weapons Center at China Lake, CA, is currently in the process of evaluating propulsion sys...
PMR polyimides are safe, easy to handle, can be processed with relatively wide process controls, and...
Ultrahigh speed fan blades, designed in accordance with the requirements of an ultrahigh tip speed b...
The design and fabrication of twelve NASA-QCSEE type composite fan blades utilizing wet filament win...
A description is given of the background design, choice of composite materials and construction of a...
Application of polymer matrix composite materials for jet engine fan blades is becoming attractive a...
Results are presented for blade response and stability during wind tunnel tests of a 62.2 cm diamete...
The use and application of the COBSTRAN (COmposite Blade STRuctural ANalyzer) computer code is prese...
Application of polymer matrix composite materials for jet engine fan blades is becoming attractive a...
Some of the single rotation propfan model wind tunnel aeroelastic findings from the experimental par...
The ability to accurately manufacture large complex shapes in a consistent and repeatable manner has...
The results of impact tests on large, fiber composite fan blades for aircraft turbofan engine applic...
One of the propulsion concepts being investigated for future cruise missiles is advanced unducted pr...
The Naval Weapons Center at China Lake, California is currently evaluating a counter rotating propfa...
Composite wind tunnel blades are frequently fabricated by hand layup of prepreg fabrics. Though well...
The Naval Weapons Center at China Lake, CA, is currently in the process of evaluating propulsion sys...
PMR polyimides are safe, easy to handle, can be processed with relatively wide process controls, and...
Ultrahigh speed fan blades, designed in accordance with the requirements of an ultrahigh tip speed b...
The design and fabrication of twelve NASA-QCSEE type composite fan blades utilizing wet filament win...
A description is given of the background design, choice of composite materials and construction of a...
Application of polymer matrix composite materials for jet engine fan blades is becoming attractive a...
Results are presented for blade response and stability during wind tunnel tests of a 62.2 cm diamete...
The use and application of the COBSTRAN (COmposite Blade STRuctural ANalyzer) computer code is prese...
Application of polymer matrix composite materials for jet engine fan blades is becoming attractive a...
Some of the single rotation propfan model wind tunnel aeroelastic findings from the experimental par...
The ability to accurately manufacture large complex shapes in a consistent and repeatable manner has...
The results of impact tests on large, fiber composite fan blades for aircraft turbofan engine applic...