Hot upset solid shaft sub-assembly

Having thus described the invention, it is claimed: 1. A solid shaft sub-assembly comprising: a solid shaft having a first portion with a first cross-section diameter, a second portion with a second cross-section diameter that is less than the first cross-section diameter, and a shoulder extending between the first portion and the second portion, the shoulder extends around an entire outer peripheral surface of the solid shaft; and a yoke comprising an aperture that is defined by an inner wall that extends from a bottom surface of the yoke towards an end of the yoke, the aperture being arranged to receive the second portion of the solid shaft and at least one projection extending radially inward into the aperture, the aperture having a non-circular first cross-sectional profile, wherein the solid shaft second portion is positioned within the aperture such that the shoulder abuts the bottom surface and is deformed such that the second portion is formed with a second cross-sectional profile complementary to the first cross-sectional profile to axially and torsionally couple the solid shaft to the yoke, the second cross-sectional profile includes at least one groove extending along a length of the solid shaft, the at least one groove receives the at least one projection. 2. The sub-assembly of claim 1 , wherein the solid shaft is coupled to the yoke by inserting the shaft into the aperture and subsequently heating the solid shaft such that the second portion of the solid shaft is deformed into the yoke aperture cross-sectional profile. 3. The sub-assembly of claim 2 , wherein the solid shaft is heated by directing current through the solid shaft. 4. The sub-assembly of claim 1 , wherein an end of the deformed second portion has a third cross-sectional profile that is larger than the first cross-sectional profile. 5. The sub-assembly of claim 1 , wherein the solid shaft first portion has a first diameter and the solid shaft second portion has a second diameter, the first diameter being larger than the second diameter. 6. An intermediate shaft for a steering column assembly, the intermediate shaft comprising: a tubular shaft; a solid shaft having a first groove and a second groove each extending along the solid shaft, the solid shaft having a first portion with a first cross-section diameter that is inserted into the tubular shaft, a second portion extending from the first portion and with a second cross-section diameter that is less than the first cross-section diameter, the first groove and the second groove extending through the first portion and the second portion; and a yoke comprising an inner wall defining an aperture to receive the second portion, a first protrusion that is received within the first groove, and a second projection that is received within the second groove, the aperture having a non-circular first cross-sectional profile, wherein the second portion is positioned within the aperture such that the shoulder abuts a bottom surface of the yoke and is deformed such that the second portion is formed with a second cross-sectional profile complementary to the first cross-sectional profile to axially and torsionally couple the solid shaft to the yoke. 7. The intermediate shaft of claim 6 , wherein the solid shaft is coupled to the yoke by inserting the shaft into the aperture and subsequently heating the solid shaft such that the portion of the solid shaft is deformed into the yoke aperture cross-sectional profile. 8. The intermediate shaft of claim 7 , wherein the solid shaft is heated by directing current through the solid shaft. 9. A method of assembling a solid shaft sub-assembly, the method comprising: providing a solid shaft having a first portion with a first cross-section diameter, a second portion with a second cross-section diameter that is less than the first cross-section diameter, and a shoulder extending between the first portion and the second portion, the shoulder extends around an entire outer peripheral surface of the solid shaft; providing a yoke comprising an aperture that is defined by an inner wall that extends from a bottom surface of the yoke towards an end of the yoke, the aperture being arranged to receive the second portion of the solid shaft and at least one projection extend radially inward into the aperture, the aperture having a non-circular first cross-sectional profile; positioning the solid shaft second portion in the aperture such that the shoulder abuts the bottom surface; and axially and torsionally coupling the solid shaft to the yoke by deforming the solid shaft first portion such that the first portion is formed with a second cross-sectional profile complementary to the first cross-sectional profile, the second cross-sectional profile includes at least one groove extending along a length of the solid shaft, the at least one groove receives the at least one projection. 10. The method of claim 9 , further comprising heating the solid shaft first portion prior to deforming the solid shaft first portion. 11. The method of claim 10 , wherein the step of heating the solid shaft first portion comprises directing current through the solid shaft first portion to heat the first portion. 12. The method of claim 10 , wherein the step of deforming the solid shaft first portion comprises performing a pressing operation on the heated first portion, wherein an end of the deformed first portion has a third cross-sectional profile that is larger than the first cross-sectional profile.