Systems and methods for threading a hot coil on a mill

That which is claimed is: 1. A method of threading a metal substrate on a rolling mill comprising: receiving a coil of the metal substrate; uncoiling the metal substrate from the coil; guiding the metal substrate to a work stand of the rolling mill with a threading system, wherein guiding the metal substrate to the work roll comprises: guiding the metal substrate to a threading carriage of the threading system; gripping the metal substrate with the threading carriage; and moving the threading carriage towards the work stand, wherein the threading carriage comprises a pair of gripping rolls, and wherein gripping the metal substrate with the threading carriage comprises directing the metal substrate between the pair of gripping rolls and gripping the metal substrate with the gripping rolls, wherein the pair of gripping rolls grip the metal substrate at a position that is offset from a leading edge of the metal substrate such that when the leading edge is fed into a roll gap of the work stand, the threading carriage is spaced apart from work rolls of the work stand, and wherein the method further comprises adding stiffness to the metal substrate by adding a diameter profile along a length of the gripping rolls such that the metal substrate comprises at least one non-planar lateral curvature across a width of the metal substrate while guiding the metal substrate to the work stand. 2. The method of claim 1 , wherein guiding the metal substrate to the work stand of the rolling mill comprises directing the metal substrate into a roll gap defined between an upper work roll and a lower work roll of the work stand. 3. The method of claim 1 , wherein the threading carriage grips the metal substrate proximate to a leading edge of the metal substrate, and wherein the method further comprises disengaging the threading carriage from the metal substrate when the leading edge of the metal substrate is gripped by a recoiler. 4. The method of claim 1 , wherein the threading carriage grips the metal substrate proximate to a leading edge of the metal substrate, and wherein the method further comprises: disengaging the threading carriage from the metal substrate when the leading edge of the metal substrate is proximate the work stand; gripping the metal substrate proximate to a trailing edge of the metal substrate proximate an uncoiler; and disengaging the threading carriage from the metal substrate when the trailing edge of the metal substrate is proximate to the work stand. 5. The method of claim 1 , further comprising quenching the metal substrate with at least one quench sprayer while guiding the metal substrate to the work stand. 6. The method of claim 1 , further comprising controlling tension, controlling a metal substrate temperature, guiding the metal substrate, modifying a passline of the metal substrate, or non-contact supporting the metal substrate with at least one rotating magnet. 7. The method of claim 1 , wherein a temperature of the metal substrate is greater than 450° C. 8. The method of claim 1 , wherein receiving the coil comprises receiving the coil on an unwind mandrel, and wherein guiding the metal substrate comprises moving the threading carriage independently and away from the unwind mandrel. 9. A system for threading a metal substrate on a rolling mill comprising: a threading carriage comprising a gripper configured to grip a metal substrate; and a track extending between an unwind mandrel and a work stand of the rolling mill, wherein the threading carriage is movable along the track and relative to the unwind mandrel, and wherein the threading carriage is configured to guide and apply tension to the metal substrate between the unwind mandrel and the work stand, wherein the gripper comprises a pair of gripping rolls configured to grip the metal substrate, and wherein each gripping roll of the pair of gripping rolls comprises a varying diameter along a length of the gripping roll such that the gripping rolls impart at least one non-planar lateral curvature across a width of the metal substrate. 10. The system of claim 9 , further comprising at least at least one rotating magnet between the unwind mandrel and the work stand. 11. The system of claim 10 , wherein the at least one rotating magnet comprises a pair of vertically aligned rotating magnets, and the metal substrate is configured to pass between the pair of vertically aligned rotating magnets.