Seal for use in cryogenic applications

The invention claimed is: 1. A device for sealing a cooling chamber for cooling of work rolls in a rolling mill, the device comprising: a cooling chamber located adjacent to a work roll of a rolling mill stand wherein the work roll is cooled by a cryogenic gas supplied within the cooling chamber; a flexible seal for sealing a gap between the cooling chamber and the work roll, the flexible seal maintaining the cryogenic gas within the cooling chamber; a gas inlet leading gas from a source of gas to the flexible seal; the flexible seal comprising a first sealing member comprising an inflatable tube enclosed within the cooling chamber and a second sealing member comprising a solid, flexible body; and the inflatable tube being configured and operable to apply pressure to the solid body with a continuous flow of warm gas from the gas inlet so as to press the solid body against an object when the object is rotated by the work roll, wherein the solid body defines one or more gas passages therethrough, to receive gas passing from the inflatable tube and which permit the gas passing from the inflatable tube to exit the solid body through at least one of the one or more passages, the warm gas flow keeping the seal flexible in the presence of the cryogenic gas. 2. A device according to claim 1 , wherein at least one of the gas passages exits the solid body where the solid body contacts a work roll in a rolling mill stand. 3. A device according to claim 1 , wherein the source of gas is a cryogenic liquid. 4. A device according to claim 1 , wherein the source of gas is nitrogen. 5. A rolling mill stand comprising a pair of work rolls and a cryogenic cooling system, located and configured so that the work rolls are cooled by a cryogenic liquid; a cooling chamber of the cooling system to which the liquid is supplied; and a sealing device according to claim 1 , for sealing a gap between the cooling chamber and the work roll. 6. A method of sealing a cooling chamber for cooling of work rolls in a rolling mill, the method comprising: providing a sealing device according to claim 1 located toward each lateral edge of at least one work roll in a rolling mill; providing means for preventing rotation of the seal with the work roll; supplying a continuous flow of heated gas warm enough to cause the seal to be flexible; supplying the heated gas through an inflatable tube which is in contact with a solid body of the seal for causing the inflatable tube to apply pressure to the solid body by using the continuous flow of warm gas through the inflatable tube from a gas inlet of the inflatable tube through at least one gas outlet defined by and extending through the solid body. 7. A method according to claim 6 , further comprising supplying the warm gas from the inflatable tube and through passages in the seal for causing the gas to exit the seal at an interface between the seal and the work roll. 8. A method according to claim 6 , further comprising heating the gas before the gas enters the inflatable tube to a level that warms the second sealing member to maintain its flexibility. 9. A sealing device according to claim 1 , wherein the solid body of the second sealing member is flexible such that pressure applied on the second sealing member by the first sealing member presses the second sealing member against a work roll on which the sealing device is applied even if the shape of the work roll changes. 10. A sealing device according to claim 9 , further comprising a second chamber sized and configured to receive the inflatable tube, and the chamber is open to the second sealing member, wherein the second chamber causes the inflatable tube to apply pressure on the second sealing member. 11. A method according to claim 7 , further wherein the inflatable tube is a cryochamber, and wherein the flow of warm gas supplies heat to the second sealing member for maintaining the flexibility thereof under pressure from the first sealing member.