Claims
- 1. A strut assembly for a jet propulsion engine having a front frame forming an inlet and fan blades disposed downstream of the front frame, the strut assembly extending radially between an outer cylindrical case and an inner circumferential hub ring of the front frame, said strut assembly comprising:
- at least one front frame strut and damping means disposed within said strut capable of coulomb damping and viscoelastic damping vibration of said strut as a result of air stream pressure pulses from the fan exciting said strut when the fan blades are operating at least at transonic speeds.
- 2. A strut assembly for a jet propulsion engine having a front frame forming an inlet and fan blades disposed downstream of the front frame, the strut assembly extending radially between an outer cylindrical case and an inner circumferential hub ring of the front frame, said strut assembly comprising:
- means disposed within said strut for damping vibration of the strut as a result of air stream pressure pulses from the fan exciting the strut when the fan blades are operating at least at transonic speeds,
- wherein said damping means comprises a pair of spaced friction liners disposed between and extending radially along a pair of walls of the strut, and a damper disposed between and extending radially along said pair of spaced friction liners.
- 3. A strut assembly as set forth in claim 2 wherein said damper is a rectangular plate member.
- 4. A strut assembly as set forth in claim 2 wherein said damper is made of an elastomeric material.
- 5. A strut assembly as set forth in claim 2 wherein said friction liners are toroidally shaped.
- 6. A strut assembly as set forth in claim 5 wherein one of said pair of spaced friction liners has a major diameter greater than a major diameter of the other of said pair of spaced friction liners.
- 7. A strut assembly as set forth in claim 2 wherein said pair of spaced friction liners are made of a substantially inelastic material.
- 8. A damper assembly for use in a strut on a jet propulsion engine, the strut including a pair of spaced walls extending between a leading edge and a trailing edge and a strut stiffener disposed between said walls and forming a plurality of cells, said damper assembly comprising:
- a pair of spaced friction liners disposed within at least one of the cells; and
- means forming a damper disposed between said pair of spaced friction liners for flexing to contact a portion of said pair of spaced friction liners with at least one of said sidewalls to dampen excitation of the strut.
- 9. The damper assembly as set forth in claim 8 wherein said damper means comprises a damper made of an elastomeric material.
- 10. The damper assembly as set forth in claim 9 wherein said pair of spaced friction liners are made of a substantially inelastic material.
- 11. The damper assembly as set forth in claim 10 wherein said pair of spaced friction liners are toroidally shaped.
- 12. The damper assembly as set forth in claim 11 wherein one of said pair of spaced friction liners has a major diameter greater than a major diameter of the other of said pair of spaced friction liners.
- 13. The damper assembly as set forth in claim 12 wherein said damper is shaped as a plate member.
- 14. A strut assembly for a jet propulsion engine including a front frame forming an inlet for an inlet airflow and a fan disposed downstream of the front frame to pressurize the inlet airflow, the fan having a rotor and a plurality of blade assemblies circumferentially disposed about the rotor, and the front frame having an outer cylindrical case and an inner circumferential hub ring radially spaced from the outer cylindrical case, the strut assembly extending radially between the outer cylindrical case and the inner circumferential hub ring, said strut assembly comprising:
- a front frame strut including a pair of spaced walls extending between a leading edge and a trailing edge;
- a strut stiffener disposed between said walls and said leading and trailing edges to form a plurality of cells; and
- damping means disposed within at least one of said cells capable of coulomb damping and viscoelastic damping vibration of said strut as a result of pressure pulses from the blade assemblies causing excitation of said strut when the fan blades are operating at least at transonic speeds.
- 15. A strut assembly for a jet propulsion engine including a front frame forming an inlet for an inlet airflow and a fan disposed downstream of the front frame to pressurize the inlet airflow, the fan having a rotor and a plurality of blade assemblies circumferentially disposed about the rotor, and the front frame having an outer cylindrical case and an inner circumferential hub ring radially spaced from the outer cylindrical case, the strut assembly extending radially between the outer cylindrical case and the inner circumferential hub ring, said strut assembly comprising:
- a pair of spaced walls extending between a leading edge and a trailing edge;
- a strut stiffener disposed between said walls and said leading and trailing edges to form a plurality of cells; and
- means disposed within at least one of said cells for damping vibration of said strut as a result of pressure pulses from the blade assemblies causing excitation of said strut when the fan blades are operating at least at transonic speeds,
- wherein said damping means comprises first and second friction liners and a damper disposed between said friction liners.
- 16. A strut assembly as set forth in claim 15 wherein said damper is made of an elastomeric material.
- 17. A strut assembly as set forth in claim 16 wherein said first and second friction liners are made of a substantially inelastic material.
- 18. A strut assembly as set forth in claim 17 wherein said first and second friction liners are toroidally shaped.
- 19. A strut assembly as set forth in claim 18 wherein said second friction liner has a major diameter greater than a major diameter of said first friction liner.
- 20. A strut assembly as set forth in claim 19 wherein said damper is shaped as a plate member.
- 21. A static airfoil assembly for a gas turbine engine disposed upstream of rotating blades, said assembly comprising:
- a radially disposed hollow airfoil and damping means disposed within said airfoil capable of coulomb damping and viscoelastic damping vibration of the airfoil as a result of air stream pressure pulses from the fan exciting said airfoil when the fan blades are operating at least at transonic speeds.
- 22. An airfoil assembly as set forth in claim 21 wherein said damping means comprises a pair of spaced friction liners disposed between and extending radially along a pair of walls of the airfoil, and a damper disposed- between and extending radially along said pair of spaced friction liners.
- 23. An airfoil assembly as set forth in claim 22 wherein said damper is a rectangular plate member.
- 24. An airfoil assembly as set forth in claim 22 wherein said damper is made of an elastomeric material.
- 25. An airfoil assembly as set forth in claim 23 wherein said friction liners are toroidally shaped.
- 26. A static airfoil assembly for a gas turbine engine disposed upstream of rotating blades, said assembly comprising:
- a hollow airfoil,
- means disposed within said airfoil for damping vibration of the airfoil as a result of air stream pressure pulses from the fan exciting the airfoil when the fan blades are operating at least at transonic speeds,
- wherein said damping means comprises a pair of spaced friction liners disposed between and extending radially along a pair of walls of the airfoil, and a rectangular plate damper disposed between and extending radially along said pair of spaced toroidally shaped friction liners, and
- wherein one of said pair of spaced friction liners has a major diameter greater than a major diameter of the other of said pair of spaced friction liners.
- 27. An airfoil assembly as set forth in claim 25 wherein said pair of spaced friction liners are made of a substantially inelastic material.
Government Interests
The Government has rights in the invention pursuant to Contract No. F33657-84-C-0264 awarded by the Department of the Air Force.
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