Magnetorheological damping device for reduction or elimination of vibration in steering systems

What is claimed is: 1. A damping device for use with a rotatably-mounted steering shaft, comprising: a magnetorheological material directly in contact with the steering shaft; a coil arranged in effective proximity to the magnetorheological material, wherein the magnetorheological material is the only damping material between the steering shaft and the coil; and a body indirectly in contact with the steering shaft through the magnetorheological material, and which does not rotate with the steering shaft, wherein a voltage applied to the coil to activate the magnetorheological material increases a viscosity of the magnetorheological material to inhibit relative rotation between the steering shaft and the body, and wherein a viscosity of the magnetorheological material retains the magnetorheological material within the damping device without the use of an open-network carrier and without the use of seals. 2. The damping device of claim 1 , wherein the body is fixed external to the steering shaft so that it does not rotate with the steering shaft. 3. The damping device of claim 1 , further comprising a flux carrier in effective proximity to the coil. 4. The damping device of claim 3 , wherein the flux carrier is positioned relative to the coil to make a magnetic field pass perpendicularly through the magnetorheological material. 5. The damping device of claim 4 , further comprising a sleeve extending at least partially around the steering shaft and at least partially around the coil, wherein a portion of the sleeve is in direct contact with the magnetorheological material, wherein the sleeve acts as a flux return path. 6. The damping device of claim 5 , wherein the sleeve is positioned relative to the coil and the flux carrier to make the magnetic field pass perpendicularly through the magnetorheological material. 7. The damping device of claim 1 , wherein the magnetorheological material comprises a cylindrical band surrounding the steering shaft. 8. The damping device of claim 7 , wherein the magnetorheological material comprises magnetizable particles suspended in a carrier. 9. A damping device comprising: a magnetorheological material directly in contact with a rotatably-mounted steering shaft, and having a viscosity that contains the magnetorheological material without the use of seals; a sleeve; at least one coil; and at least one flux carrier; wherein the magnetorheological material is located between the at least one flux carrier and the steering shaft such that the magnetorheological material is directly in contact with the steering shaft and the at least one flux carrier; wherein a voltage applied to the coil to activate the magnetorheological material increases a viscosity of the magnetorheological material to inhibit relative rotation between the steering shaft and the sleeve. 10. The damping device of claim 9 , wherein the sleeve is fixed external to the steering shaft so that it does not rotate with the steering shaft. 11. The damping device of claim 9 , wherein: the at least one coil comprises a first coil and a second coil arranged in effective proximity to the magnetorheological material; and the at least one flux carrier comprises a first flux carrier located between the coil and the second coil along an axial direction of the steering shaft. 12. The damping device of claim 11 , wherein the at least one flux carrier further comprises a second flux carrier, wherein the flux carriers are positioned relative to the coil to make a magnetic field pass perpendicularly through the magnetorheological material. 13. The damping device of claim 9 , wherein the sleeve extends at least partially around the at least one coil and the steering shaft, wherein the sleeve acts as a flux return path. 14. The damping device of claim 13 , wherein the sleeve is positioned relative to the at least one coil and the at least one flux carrier to make the magnetic field pass perpendicularly through the magnetorheological material. 15. The damping device of claim 9 , wherein the magnetorheological material comprises a cylindrical band surrounding the steering shaft. 16. The damping device of claim 14 , wherein the magnetorheological material comprises magnetizable particles suspended in a carrier that is directly in contact with the steering shaft and the at least one flux carrier. 17. A method for damping vibrations in a rotatably-mounted steering shaft, comprising: directly placing a magnetorheological material in contact with the steering shaft, wherein a viscosity of the magnetorheological material retains the magnetorheological material without the use of an open-network carrier and without the use of seals; arranging a coil in effective proximity to the magnetorheological material, wherein the magnetorheological material is the only damping material between the steering shaft and the coil; and providing a body that does not rotate with the steering shaft, and which is in contact with the steering shaft through the magnetorheological material; wherein the coil is configured to activate the magnetorheological material via a voltage applied to the coil so that a viscosity of the magnetorheological material is increased to inhibit relative rotation between the steering shaft and the body. 18. The damping device of claim 5 , wherein the sleeve is located inside a hollow portion of a steering column and is fixedly mounted to the steering column. 19. The damping device of claim 1 , further comprising a mounting member that the coil is mounted in, wherein the magnetorheological material is in direct contact with the mounting member. 20. A damping device for use with a rotatably-mounted steering shaft, the damping device comprising: a cylindrical band of magnetorheological material in contact with and surrounding the steering shaft, wherein a viscosity of the magnetorheological material contains the magnetorheological material without the use of an open-network carrier and without the use of seals; first and second coils surrounding the band of magnetorheological material; a first flux carrier surrounding the band of magnetorheological material and positioned between the first and second coils; a second flux carrier surrounding the band of magnetorheological material and adjacent to the second coil; a sleeve surrounding the first and second coils; and a steering column indirectly in contact with the steering shaft through the magnetorheological material, wherein the steering shaft passes through the steering column and wherein the steering column does not rotate with the steering shaft, wherein a voltage applied to the coil to activate the magnetorheological material increases a viscosity of the magnetorheological material to inhibit relative rotation between the steering shaft and the steering column. 21. The damping device of claim 9 , wherein the at least one coil and the at least one flux carrier are located radially inward of at least a portion of the sleeve with respect to a longitudinal axis of the steering shaft.