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An inner bushing assembly (280) to provide a biasing force between a guide vane (260) and an inner ring half (261) of a gas turbine engine compressor (200) is disclosed. The inner bushing assembly (280) includes a first bushing (281), a second bushing (282), and a biasing element (283). The first bu

An inner bushing assembly (280) to provide a biasing force between a guide vane (260) and an inner ring half (261) of a gas turbine engine compressor (200) is disclosed. The inner bushing assembly (280) includes a first bushing (281), a second bushing (282), and a biasing element (283). The first bushing (281) is configured to be installed about an inner vane shaft (267) of the guide vane (260) adjacent to an airfoil (265) of the guide vane (260). The second bushing (282) is configured to be installed about the inner vane shaft (267) distal to the airfoil (265). The biasing element (283) is configured to be installed about the inner vane shaft (267) between the first bushing (281) and the second bushing (282).

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1. An inner bushing assembly to provide a biasing force between a guide vane and an inner ring half of a gas turbine engine compressor, the inner bushing assembly comprising: a first bushing configured to be installed about an inner vane shaft of the guide vane adjacent to an airfoil of the guide va

1. An inner bushing assembly to provide a biasing force between a guide vane and an inner ring half of a gas turbine engine compressor, the inner bushing assembly comprising: a first bushing configured to be installed about an inner vane shaft of the guide vane adjacent to an airfoil of the guide vane;a second bushing configured to be installed about the inner vane shaft distal to the airfoil; anda biasing element configured to be installed about the inner vane shaft between the first bushing and the second bushing, the biasing element configured to separate the first bushing and the second bushing. 2. The inner bushing assembly of claim 1, wherein the biasing element comprises a spring washer. 3. The inner bushing assembly of claim 2, wherein the spring washer comprises a wave washer. 4. The inner bushing assembly of claim 3, wherein the wave washer includes three convolutions. 5. The inner bushing assembly of claim 1, wherein the first bushing comprises a thermoplastic and the second bushing comprises a thermoplastic. 6. A compressor stator assembly half for a gas turbine engine compressor, comprising: a plurality of variable guide vanes, each variable guide vane having an airfoil, andan inner vane shaft extending from the airfoil, the inner vane shaft including a collar portion, anda shaft portion;a plurality of inner bushing assemblies, each inner bushing assembly having a first bushing located about the shaft portion and adjacent the collar portion of one of the plurality of variable guide vanes,a second bushing located about the shaft portion and distal to the collar portion of one of the plurality of variable guide vanes, anda biasing element located about the shaft portion of one of the plurality of variable guide vanes and between the first bushing and the second bushing, the biasing element configured to separate the first bushing and the second bushing; andan inner ring half coupled to the plurality of variable guide vanes. 7. The compressor stator assembly half of claim 6, further comprising: a half of a compressor case;each variable guide vane further having an outer vane shaft extending from the airfoil distal to the inner vane shaft extending through the compressor case;a plurality of outer bushings, each outer bushing is located within the half of the compressor case and about the outer vane shaft of one of the plurality of variable guide vanes; anda plurality of curved springs located adjacent to the compressor case attached to an end of the outer vane shaft distal the airfoil of one of the plurality of variable guide vanes. 8. The compressor stator assembly half of claim 7, further comprising a plurality of inlet guide vanes, wherein each inlet guide vane is a variable guide vane. 9. The compressor stator assembly half of claim 6, wherein the inner ring half includes a forward ring and an aft ring. 10. The compressor stator assembly half of claim 6, wherein the biasing element comprises a spring washer. 11. The compressor stator assembly half of claim 10, wherein the spring washer comprises a wave washer. 12. The compressor stator assembly half of claim 11, wherein the wave washer includes three convolutions. 13. The compressor stator assembly half of claim 6, wherein the first bushing comprises a thermoplastic and the second bushing comprises a thermoplastic. 14. A gas turbine engine including two compressor stator assembly halves of claim 6, wherein the compressor stator assembly halves are coupled together about a compressor rotor assembly. 15. A compressor stator assembly half for a gas turbine engine compressor, comprising: a plurality of variable guide vanes, each variable guide vane having an airfoil, andan inner vane shaft extending from the airfoil, the inner vane shaft including a shaft portion, anda collar portion adjacent to the airfoil;an inner ring half coupled to the plurality of variable guide vanes about each inner vane shaft; anda plurality of inner bushing assemblies, each inner bushing assembly having a first bushing located about the shaft portion and adjacent the collar portion of one of the plurality of variable guide vanes,a second bushing located about the shaft portion and distal to the collar portion of one of the plurality of variable guide vanes, anda biasing element located about the shaft portion of one of the plurality of variable guide vanes and between the first bushing and the second bushing, the biasing element configured to separate the first bushing and the second bushing, wherein the biasing element provides a radial force to the inner ring half. 16. The compressor stator assembly half of claim 15, further comprising: a half of a compressor case;each variable guide vane further having an outer vane shaft extending from the airfoil distal to the inner vane shaft extending through the compressor case;a plurality of outer bushings, each outer bushing is located within the half of the compressor case and about the outer vane shaft of one of the plurality of variable guide vanes; anda plurality of curved springs located adjacent to the compressor case attached to an end of the outer vane shaft distal the airfoil of one of the plurality of variable guide vanes. 17. The compressor stator assembly half of claim 15, wherein the biasing element comprises a spring washer. 18. The compressor stator assembly half of claim 15, wherein the spring washer comprises a wave washer. 19. The compressor stator assembly half of claim 15, wherein each inner bushing assembly is installed onto the shaft portion of one of the inner vane shafts between the collar portion and the inner ring half. 20. A gas turbine engine including two compressor stator assembly halves of claim 15, wherein the compressor stator assembly halves are coupled together about a compressor rotor assembly.