Add to ORKGThe overall and blade-element performance of two configurations of a moderately high aspect ratio transonic compressor rotor are presented. The subject rotor has conventional blade dampers. The performance is compared with a rotor utilizing dual wire friction dampers. At design speed the subject achieved a pressure ratio of 1.52 and efficiency of 0.89 at a near design weight flow of 72.1 pounds per second. The rotor with wire dampers gave consistently higher pressure ratios at each speed, but efficiencies for the two rotors were about the same. Stall margin for the subject rotor was 20.4 percent, but for the wire damped rotor only 4.0 percent
The aerodynamic design parameters are presented along with the overall and blade element performance...
A high-solidity low-aspect-ratio transonic rotor with an inlet hub-tip ratio of 0.52 was investigate...
The design and experimental performance of a 50-centimeter-diameter, single stage, axial flow, trans...
The overall and blade-element performances and the aerodynamic design parameters of a transonic roto...
The experimental performance of a 20-inch-diameter axial-flow transonic compressor rotor with small ...
The design and experimental performance of a 20-inch diameter tandem-bladed axial-flow transonic com...
Prepared at Lewis Research Center.Cover title.Includes bibliographical references (p. 16).Mode of ac...
The overall and blade-element performance of a transonic compressor stage is presented over the stab...
Detailed measured radial distributions of flow parameters for eight rotors with part-span dampers ar...
A 50-centimeter-diameter axial-flow transonic compressor stage with multiple-circular-arc blades was...
This presents the aerodynamic design parameters along with the overall and blade element performance...
Aerodynamic design parameters are presented along the overall and blade element performance, of an a...
The overall and blade-element performances are presented over the stable flow operating range of the...
The overall and blade-element performances of a low-aspect-ratio transonic compressor stage are pres...
The overall and blade-element performance of a transonic compressor stage with a tip solidity of 1.5...
The aerodynamic design parameters are presented along with the overall and blade element performance...
A high-solidity low-aspect-ratio transonic rotor with an inlet hub-tip ratio of 0.52 was investigate...
The design and experimental performance of a 50-centimeter-diameter, single stage, axial flow, trans...
The overall and blade-element performances and the aerodynamic design parameters of a transonic roto...
The experimental performance of a 20-inch-diameter axial-flow transonic compressor rotor with small ...
The design and experimental performance of a 20-inch diameter tandem-bladed axial-flow transonic com...
Prepared at Lewis Research Center.Cover title.Includes bibliographical references (p. 16).Mode of ac...
The overall and blade-element performance of a transonic compressor stage is presented over the stab...
Detailed measured radial distributions of flow parameters for eight rotors with part-span dampers ar...
A 50-centimeter-diameter axial-flow transonic compressor stage with multiple-circular-arc blades was...
This presents the aerodynamic design parameters along with the overall and blade element performance...
Aerodynamic design parameters are presented along the overall and blade element performance, of an a...
The overall and blade-element performances are presented over the stable flow operating range of the...
The overall and blade-element performances of a low-aspect-ratio transonic compressor stage are pres...
The overall and blade-element performance of a transonic compressor stage with a tip solidity of 1.5...
The aerodynamic design parameters are presented along with the overall and blade element performance...
A high-solidity low-aspect-ratio transonic rotor with an inlet hub-tip ratio of 0.52 was investigate...
The design and experimental performance of a 50-centimeter-diameter, single stage, axial flow, trans...