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A honeycomb structure dial includes cells in which septums are located to provide acoustic dampening. The cells are formed by at least our walls wherein at least two of the walls are substantially parallel to each other. The septums include warp fibers and weft fibers that are substantially perpendi

A honeycomb structure dial includes cells in which septums are located to provide acoustic dampening. The cells are formed by at least our walls wherein at least two of the walls are substantially parallel to each other. The septums include warp fibers and weft fibers that are substantially perpendicular to each other. The septums are oriented in the honeycomb cells such that the weft fibers and/or warp fibers are substantially perpendicular to the parallel walls.

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1. An acoustic structure that is adapted to be located near a source of noise, said acoustic structure comprising: a honeycomb comprising a first edge to be located nearest said source of noise and a second edge, said honeycomb further comprising a plurality of walls, said walls comprising an upper

1. An acoustic structure that is adapted to be located near a source of noise, said acoustic structure comprising: a honeycomb comprising a first edge to be located nearest said source of noise and a second edge, said honeycomb further comprising a plurality of walls, said walls comprising an upper edge located at said first edge of said honeycomb and a lower edge located at said second edge of said honeycomb, said walls further comprising side edges that extend between said first and said second edges of said honeycomb, said walls being connected to each other along said side edges, said walls defining a plurality of cells wherein at least one of said cells is defined by at least four of said walls and wherein at least two of said walls defining said cell form a pair of walls that are substantially parallel to each other and wherein said walls define a perimeter around said cell wherein at least one of said parallel walls forms a larger portion of said cell perimeter than at least one of the cell walls that is not parallel with said larger wall;a septum located within said cell, said septum comprising an acoustic material that comprises a plurality of warp fibers and a plurality of weft fibers, said warp fibers and weft fibers being composed of glass, carbon, ceramic or polymer, said warp fibers and weft fibers being substantially perpendicular to each other, wherein each of said warp fibers comprises a resonator portion located within said cell and anchoring portions located at each end of said warp fiber and wherein each of said weft fibers comprises a resonator portion located within said cell and anchoring portions located at each end of said weft fiber, said septum being oriented in said cell such that resonator portions of either said warp or weft fibers are substantially perpendicular to said larger wall in the direction extending between the sides of said larger wall; andan adhesive that bonds said anchoring portions of said warp and weft fibers to said walls. 2. An acoustic structure according to claim 1 wherein said warp fibers and said well fibers are composed of a polymer selected from the group consisting of polyamide, polyester, polyethylene chlorotrifluoroethylene, ethylene tetrafluoroethylene, polytetrafluoroethylene, polyphenylene sulfide, polyfluoroethylene and polyether ether ketone. 3. An acoustic structure according to claim 2 wherein said warp fibers and said well fibers are composed of monofilaments of polyether ether ketone. 4. An acoustic structure according to claim 1 wherein at least two septums are located within said cell. 5. An acoustic structure according to claim 1 wherein said plurality of cells comprises a first cell and a second cell wherein said septum in said first cell is located at a different level between the first and second edges of said honeycomb than said septum located in said second cell. 6. An acoustic structure according to claim 1 wherein a part of said resonator portion is covered with said adhesive. 7. A method for making an acoustic structure that is adapted to be located near a source of noise, said method comprising the steps of: providing a honeycomb comprising a first edge to be located nearest said source of noise and a second edge, said honeycomb further comprising a plurality of wall, said walls comprising an upper edge located at said first edge of said honeycomb and a lower edge located at said second edge of said honeycomb, said walls further comprising side edges that extend between said first and said second edges of said honeycomb, said walls being connected to each other along said side edges, said walls defining a plurality of cells wherein at least one of said cells is defined by at least four of said walls and wherein at least two of said walls defining said cell form a pair of walls that are substantially parallel to each other and wherein said walls define a perimeter around said cell wherein at least one of said parallel walls forms a larger portion of said cell perimeter than at least one of the cell walls that is not parallel with said larger wall;inserting a septum into said cell, said septum comprising an acoustic material that comprises a plurality of warp fibers and a plurality of well fibers, said warp fibers and well fibers being composed of glass, carbon, ceramic or polymer, said warp fibers and weft fibers being substantially perpendicular to each other, wherein each of said warp fibers comprises a resonator portion located within said cell and anchoring portions located at each end of said warp fiber and wherein each of said well fibers comprises a resonator portion located within said cell and anchoring portions located at each end of said weft fiber, said septum being inserted in said cell such that resonator portions of either said warp or weft fibers are substantially perpendicular to said larger wall in the direction extending between the sides of said larger wall; andbonding said anchoring portions of said warp and weft fibers to said walls. 8. A method for making an acoustic structure according to claim 7 wherein said warp fibers and said weft fibers are composed of a polymer selected from the group consisting of polyamide, polyester, polyethylene chlorotrifluoroethylene, ethylene tetrafluoroethylene, polytetrafluoroethylene, polyphenylene sulfide, polyfluoroethylene and polyether ether ketone. 9. A method for making an acoustic structure according to claim 8 wherein said warp fibers and said weft fibers are composed of monofilaments of polyether ether ketone. 10. A method for making an acoustic structure according to claim 7 wherein at least two septums are inserted within said cell. 11. A method for making an acoustic structure according to claim 7 wherein said plurality of cells comprises a first cell into which a first septum is inserted and a second cell into which a second septum is inserted wherein said first septum is inserted into said first cell to a level between the first and second edges of said honeycomb that is different from the level to which said second septum is inserted into said second cell. 12. A method for making an acoustic structure according to claim 7 wherein an adhesive is use to bond said anchoring portion to said walls and wherein a part of said resonator portion is covered with said adhesive. 13. A nacelle for an aircraft engine that comprises an acoustic structure according to claim 1. 14. A nacelle for an aircraft engine that comprises an acoustic structure according to claim 2. 15. A nacelle for an aircraft engine that comprises an acoustic structure according to claim 3. 16. A nacelle for an aircraft engine that comprises an acoustic structure according to claim 4. 17. A nacelle for an aircraft engine that comprises an acoustic structure according to claim 5. 18. A nacelle for an aircraft engine that comprises an acoustic structure according to claim 6. 19. An aircraft that comprises an acoustic structure according to claim 1. 20. An aircraft that comprises an acoustic structure according to claim 6.