Claims
- 1. A high damping light weight mass loaded composite rotor comprising:
- a. a hub having an axis and adapted for rotation about the axis;
- b. at least one blade extending from said hub, said blade having a composite portion being made of a multidimensionally braided multiple fiber reinforcement wherein the individual fiber yarns of said multidimensionally braided multiple fiber reinforcement interact in a through-the-thickness helical type entanglement of individual fiber yarns to form a multidimensionally braided composite skeletal shape such that said multidimensionally braided multiple fiber reinforcement lacks planes of delamination, a rubber material insert portion totally encompassed by said multidimensionally braided multiple fiber reinforcement, and a high density material portion wherein said high density material is utilized and located in localized high vibration active regions of said blade; and
- c. a matrix resin to impregnate said multidimensionally braided multiple fiber reinforcement and to rigidly bind the multidimensionally braided multiple fiber reinforcement, the rubber material insert and the high density material, whereby the mass distribution with the high damping lightweight mass loaded composite rotor is tailored to reduce vibratory response of said blade to flow excitation.
- 2. A high damping light weight mass loaded composite rotor as in claim 1 wherein said multidimensionally braided multiple fiber reinforcement comprises a first composite fiber region and a second composite fiber region wherein the individual fiber yarns of said first composite fiber region are graphite and the individual fiber yarns of said second composite fiber region are Kevlar.
- 3. A high damping light weight mass loaded composite rotor as in claim 1 wherein the rubber material insert portion is a flat rubber insole and made from material selected from the group consisting of neoprene, nitrile rubber and natural rubber.
- 4. A high damping light weight mass loaded composite rotor as in claim 1 wherein said high density material is selected from the group consisting of bronze, lead, steel and tungsten and further wherein said high density material is of a sufficient mass to effectively damp flow induced vibration.
- 5. A high damping light weight mass loaded composite rotor as in claim 1 wherein the matrix resin is a thermosetting epoxy resin.
- 6. A high damping light weight mass loaded composite rotor as in claim 1 wherein said hub portion is comprised of an inner region of high density material and an other annular region of multidimensionally braided multiple fiber reinforcement encompassing said high density material inner region.
- 7. A high damping light weight mass loaded composite rotor as in claim 1 wherein said high density material is utilized and located at the tip of said blade and further wherein said high density material is of a sufficient mass to effectively damp flow induced vibration.
- 8. A high damping light weight mass loaded composite rotor as in claim 1 wherein the high density material is in the form of a solid.
- 9. A high damping light weight mass loaded composite rotor as in claim 1 wherein the surface of the rotor is coated with a compliant material for reducing erosion of the rotor due to cavitation.
- 10. A high damping light weight mass loaded composite rotor as in claim 1 wherein said high density material portion of said blade comprises a trailing edge spar and a tip portion contiguous with said trailing edge spar and further wherein said high density material is of a sufficient mass to effectively damp flow induced vibration.
- 11. A high damping light weight mass loaded composite rotor as in claim 1 wherein said high density material portion of said blade comprises integrally braided high density material filaments.
Government Interests
The invention described herein may be manufactured and used by or for the Government of the United States of America for government purposes without the payment of any royalties thereon or therefor.
US Referenced Citations (21)
Foreign Referenced Citations (5)
Number |
Date |
Country |
0121462 |
Oct 1984 |
EPX |
3420259 |
Dec 1985 |
DEX |
505912 |
Aug 1920 |
FRX |
195916 |
Jul 1967 |
SUX |
521402 |
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SUX |
Non-Patent Literature Citations (2)
Entry |
The Random House College Dictionary, Revised Edition, 1980, pp. 502-503. |
Rubber For Propellers, United Aircraft Corporation, p. 29, 1950. |