Bearing for use in sliding head restraint

What is claimed is: 1. A head restraint preassembly comprising: a head restraint comprising a body and a first and second post extending from the body; a first guide sleeve adapted to engage the first post, wherein the first guide sleeve comprises: a generally cylindrical sidewall including an undeformed portion and a plurality of wave structures protruding radially from the undeformed portion, and wherein the generally cylindrical sidewall comprises a unitary structure including a metal substrate and a low friction polymer layer; and a locking mechanism adapted to selectively secure the first post relative to the first guide sleeve, wherein the locking mechanism is detachably coupled to the generally cylindrical sidewall; and a second guide sleeve adapted to engage the second post, wherein the locking mechanism comprises a different material than the generally cylindrical sidewall. 2. The head restraint preassembly according to claim 1 , wherein the first guide sleeve has a radial stiffness of no less than 2,000 N/mm, and wherein the first sleeve is adapted to translate along the first post upon application of a force of no greater than 30 N. 3. The head restraint preassembly according to claim 1 , wherein each of the plurality of wave structures protrude radially inward toward a central axis of the first guide sleeve. 4. The head restraint preassembly according to claim 1 , wherein the undeformed portion of the sidewall and the plurality of wave structures are of unitary construction. 5. The head restraint preassembly according to claim 1 , wherein the first guide sleeve has an axial length, L GS , and wherein: each wave structure of the first guide sleeve has an axial length, L WS , that is no less than 0.25 L GS ; the plurality of wave structures define at least two circumferentially extending rows around the first guide sleeve; or a combination thereof. 6. The head restraint preassembly according to claim 1 , wherein the low friction polymer layer comprises a fluoropolymer. 7. The head restraint preassembly according to claim 1 , wherein the guide sleeves comprise a central axis, and wherein a portion of the guide sleeves comprise at least three wave structures when viewed in a cross-section with respect to the central axis of the guide sleeve. 8. The head restraint preassembly according to claim 1 , wherein each of the plurality of wave structures has a generally arcuate shape defining an apex. 9. The head restraint preassembly according to claim 8 , wherein each apex is adapted to provide a point contact location. 10. The head restraint preassembly according to claim 8 , wherein each apex has a planar portion adapted to provide an area contact location. 11. A head restraint preassembly comprising: a head restraint comprising a body and a first and second post extending from the body; a first guide sleeve adapted to engage the first post; and a second guide sleeve adapted to engage the second post, wherein the first guide sleeve includes a generally cylindrical sidewall defining an undeformed portion and a plurality of wave structures extending radially from the undeformed portion, wherein the first guide sleeve further comprises a locking mechanism coupled to an axial end of the generally cylindrical sidewall, the locking mechanism adapted to releasably secure the first post, wherein the locking mechanism comprises a different material than the generally cylindrical sidewall, wherein the generally cylindrical sidewall comprises a composite structure including a low friction polymer layer, and wherein at least one wave structure of the plurality of wave structures includes at least one feature prior to the post being inserted into the guide sleeve, the feature including: an aperture extending through a portion of the at least one wave structure; a portion having a reduced thickness; a dimpled section; or any combination thereof. 12. The head restraint preassembly according to claim 11 , wherein the first guide sleeve has an axial length, L GS , and wherein: each wave structure of the first guide sleeve has an axial length, LWS, that is no less than 0.25 L GS ; the plurality of wave structures define at least two circumferentially extending rows around the first guide sleeve; or a combination thereof. 13. The head restraint preassembly according to claim 11 , wherein the first guide sleeve has a radial stiffness of no less than 2,000 N/mm, and wherein the first guide sleeve is adapted to translate relative to the first post upon application of a force of no greater than 30 N. 14. The head restraint preassembly according to claim 11 , wherein the partially disconnected wave structure comprises a wave structure disconnected from the adjacent undeformed portion of the sidewall along at least two sides of the wave structure. 15. The head restraint preassembly according to claim 11 , wherein the undeformed portion of the sidewall and the plurality of wave structures are of unitary construction. 16. The head restraint preassembly according to claim 11 , wherein the first post has an adjustment length, and wherein the locking mechanism is adapted to secure the first guide sleeve at any location along the adjustment length. 17. The head restraint preassembly according to claim 11 , wherein the composite structure comprises a metal substrate. 18. The head restraint preassembly according to claim 17 , wherein the low friction polymer layer is welded, adhered, or mechanically interlocked with the metal substrate.