Hinge assembly for vehicle interior trim component

The invention claimed is: 1. A vehicle interior trim component hinge assembly, comprising: a shaft non-rotatably coupled to a first structure of a vehicle; a second structure; the second structure having two parts defining a passage within the second structure, wherein the shaft passes through the passage to facilitate rotation of the second structure relative to the first structure; at least one first friction disk disposed about the shaft and comprising a first engagement feature configured to engage the shaft to block rotation of the at least one first friction disk relative to the shaft; at least one second friction disk rotatably disposed about the shaft and comprising a second engagement feature configured to engage the second structure to block rotation of the at least one second friction disk relative to the second structure; a biasing member configured to urge the at least one first and at least one second friction disks toward one another to establish a friction force that provides rotational resistance between the first and second structures; and an end cap fixedly coupled to the shaft and comprising a radial protrusion configured to engage an indentation within the shaft to secure the end cap to the shaft, wherein the biasing member is disposed between the end cap and the at least one first friction disk or between the end cap and the at least one second friction disk. 2. The vehicle interior trim component hinge assembly of claim 1 , comprising a pin having the shaft and a head keyed to the first structure. 3. The vehicle interior trim component hinge assembly of claim 1 , wherein the shaft comprises a recess, and the first engagement feature comprises an inner protrusion configured to engage the recess to block rotation of the at least one first friction disk relative to the shaft. 4. The vehicle interior trim component hinge assembly of claim 1 , wherein the second structure comprises a recess within the passage, and the second engagement feature comprises an outer protrusion configured to engage the recess to block rotation of the at least one second friction disk relative to the second structure. 5. The vehicle interior trim component hinge assembly of claim 1 , wherein the at least one first friction disk comprises a plurality of first friction disks, and the at least one second friction disk comprises a plurality of second friction disks, and the first and second friction disks alternate along the shaft. 6. The vehicle interior trim component hinge assembly of claim 1 , wherein the biasing member comprises a coil spring disposed about the shaft. 7. The vehicle interior trim component hinge assembly of claim 6 , wherein the end cap is configured to retain the coil spring. 8. The vehicle interior trim component hinge assembly of claim 1 , comprising a detent assembly configured to hold the second structure in a detent position relative to the first structure, wherein the detent assembly comprises: a first detent disk non-rotatably coupled to the shaft and comprising a first detent feature; a second detent disk non-rotatably coupled to the second structure and comprising a second detent feature, wherein contact between the first detent feature and the second detent feature urges the second structure into the detent position. 9. A vehicle interior trim component hinge assembly, comprising: a two part rotatable component comprising a passage; a shaft adapted to be fixed to a base of a vehicle disposed through the passage of the rotatable component and rotatably coupled to the rotatable component; at least one first friction disk rotatably coupled to the shaft and comprising an outer protrusion configured to engage a first recess in the rotatable component to block rotation of the at least one first friction disk relative to the rotatable component; at least one second friction disk rotatably coupled to the rotatable component and disposed about the shaft, wherein the at least one second friction disk comprises an inner protrusion configured to engage a second recess in the shaft to block rotation of the at least one second friction disk relative to the shaft; a biasing member configured to urge the at least one first and at least one second friction disks toward one another to establish a friction force that provides resistance to rotation of the rotatable component about the shaft; and an end cap comprising an opening configured to receive the shaft and a radial protrusion configured to engage an indentation in the shaft fixedly securing the end cap to the shaft, wherein the end cap is configured to support the shaft within the passage and to secure the shaft to the rotatable component, and the biasing member is disposed between the end cap and the at least one first friction disk or between the end cap and the at least one second friction disk. 10. The vehicle interior trim component hinge assembly of claim 9 , wherein the at least one first friction disk comprises a plurality of first friction disks, and the at least one second friction disk comprises a plurality of second friction disks, and the first and second friction disks alternate along the shaft. 11. The vehicle interior trim component hinge assembly of claim 9 , wherein the end cap is configured to retain the at least one first and at least one second friction disks. 12. The vehicle interior trim component hinge assembly of claim 9 , wherein the rotatable component comprises an armrest. 13. A method of manufacturing a vehicle interior trim component hinge assembly, comprising: forming a torsion assembly by non-rotatably coupling a first friction disk to a shaft adapted to be fixed to a base of a vehicle, disposing a second friction disk rotatably about the shaft adjacent to the first friction disk, and biasing the first and second friction disks toward one another to establish a friction force, wherein biasing the first and second friction disks toward one another comprises disposing a coil spring about the shaft and retaining the coil spring with an end cap; disposing the torsion assembly within a passage defined by a two part rotatable component such that an outer protrusion of the second friction disk engages a first recess of the rotatable component to non-rotatably couple the second friction disk to the rotatable component, wherein the friction force provides resistance to rotation of the rotatable component about the shaft; and providing the end cap comprising an opening configured to receive the shaft and a radial protrusion configured to engage an indentation in the shaft fixedly securing the end cap to the shaft, wherein the end cap is configured to support the shaft within the passage and to secure the shaft to the rotatable component, and the biasing member is disposed between the end cap and the first friction disk or between the end cap and the second friction disk. 14. The method of claim 13 , wherein non-rotatably coupling the first friction disk to the shaft comprises engaging an inner protrusion of the first friction disk with a second recess of the shaft. 15. The method of claim 13 , comprising non-rotatably coupling the shaft to the base to facilitate rotation of the rotatable component relative to the base.