Damper on constant velocity joint tube seat

What is claimed is: 1. A shaft assembly, comprising: a shaft having a first end portion and a second end portion; a joint comprising an inner race and an outer race, a plurality of balls and a cage that is disposed between said inner race and said outer race of said joint; wherein said inner race of said joint has an inner surface and an outer surface; a joint stub shaft having a first end portion, a second end portion and an outer surface; wherein said joint stub shaft is co-axial with said shaft and said inner race of said joint; wherein said outer surface of said first end portion of said joint stub shaft is drivingly connected to said inner surface of said inner race of said joint; wherein said second end portion of said joint stub shaft has an increased diameter portion comprising a first end portion, a second end portion and an outer surface; wherein said second end portion of said increased diameter portion is integrally connected to said first end portion of said shaft; a damper, comprising: a first damper ring and a second damper ring; wherein said first damper ring having an inner surface and an outer surface defining a hollow portion therein; wherein said first damper ring is co-axial with said joint stub shaft; wherein said inner surface of said first damper ring is integrally connected to said outer surface of said increased diameter portion on said second end portion of said joint stub shaft; wherein said second damper ring having an inner surface and an outer surface defining a hollow portion therein; wherein said second damper ring is co-axial with said first damper ring; and wherein said inner surface of said second damper ring is rotatably connected to said outer surface of said first damper ring. 2. The shaft assembly of claim 1 , wherein said shaft is a propeller shaft, a drive shaft, a cardan shaft, a double cardan shaft, a universal joint shaft, a universal coupling shaft or a Hooke's joint shaft. 3. The shaft assembly of claim 1 , wherein said joint stub shaft further comprises one or more channels on said outer surface of said increased diameter portion of said joint stub shaft; wherein said one or more channels on said outer surface of said increased diameter portion extend circumferentially along at least a portion of said outer surface of said increased diameter portion of said joint stub shaft; and wherein at least a portion of said first damper ring is disposed within said one or more channels on said outer surface of increased diameter portion of said joint stub shaft. 4. The shaft assembly of claim 1 , wherein said first damper ring comprises a plastic material, a rubber material, a synthetic rubber material, a natural rubber material, an elastomeric material or a combination thereof. 5. The shaft assembly of claim 1 , wherein said second damper ring comprises a steel forging, a machined steel, a cast steel, an iron forging, a machined iron or a cast iron. 6. The shaft assembly of claim 1 , wherein said joint is a constant velocity joint. 7. The shaft assembly of claim 1 , further comprising one or more balancing masses integrally connected to an outer surface of said shaft. 8. The shaft assembly of claim 1 , wherein said second end portion of said shaft is integrally connected to at least a portion of a tube toke of a universal joint assembly. 9. A shaft assembly, comprising: a shaft having a first end portion and a second end portion; a joint comprising an inner race, an outer race, a plurality of balls and a cage that is disposed between said inner race and said outer race of said joint; wherein said inner race of said joint has an inner surface and an outer surface; a joint stub shaft having a first end portion, a second end portion and an outer surface; wherein said joint stub shaft is co-axial with said shaft and said inner race of said joint; wherein said outer surface of said first end portion of said joint stub shaft is drivingly connected to said inner surface of said inner race of said joint; wherein said second end portion of said joint stub shaft has an increased diameter portion comprising a first end portion, a second end portion and an outer surface; wherein said second end portion of said increased diameter portion is integrally connected to said first end portion of said shaft; a damper, comprising: an innermost damper ring, a first damper ring and a second damper ring; wherein said innermost damper ring having an inner surface and an outer surface defining a hollow portion therein; wherein said innermost damper ring is co-axial with said joint stub shaft; wherein said inner surface of said innermost damper ring is integrally connected to said outer surface of said increased diameter portion on said second end portion of said joint stub shaft; wherein said first damper ring having an inner surface and an outer surface defining a hollow portion therein; wherein said first damper ring is co-axial with said innermost damper ring; wherein said inner surface of said first damper ring is integrally connected to said outer surface of said innermost damper ring; wherein said second damper ring having an inner surface and an outer surface defining a hollow portion therein; wherein said second damper ring is co-axial with said innermost damper ring and said first damper ring; and wherein said inner surface of said second damper ring is rotatably connected to said outer surface of said first damper ring. 10. The shaft assembly of claim 9 , wherein said shaft is a propeller shaft, a drive shaft, a cardan shaft, a double cardan shaft, a universal joint shaft, a universal coupling shaft or a Hooke's joint shaft. 11. The shaft assembly of claim 9 , wherein said joint stub shaft further comprises one or more channels on said outer surface of said increased diameter portion of said joint stub shaft; wherein said one or more channels on said outer surface of said increased diameter portion extend circumferentially along at least a portion of said outer surface of said increased diameter portion of said joint stub shaft; and wherein at least a portion of said innermost damper ring is disposed within said one or more channels on said outer surface of increased diameter portion of said joint stub shaft. 12. The shaft assembly of claim 9 , wherein said innermost damper ring comprises a steel alloy, an aluminum alloy an iron alloy. 13. The shaft assembly of claim 9 , wherein said first damper ring comprises a plastic material, a rubber material, a synthetic rubber material, a natural rubber material, an elastomeric material or a combination thereof. 14. The shaft assembly of claim 9 , wherein said second damper ring comprises a steel forging, a machined steel, a cast steel, an iron forging, a machined iron or a cast iron. 15. The shaft assembly of claim 9 , wherein said joint is a constant velocity joint. 16. The shaft assembly of claim 9 , further comprising one or more balancing masses integrally connected to an outer surface of said shaft. 17. The shaft assembly of claim 9 , wherein said second end portion of said shaft is integrally connected to at least a portion of a tube toke of a universal joint assembly.