Tubing material, double wall steel tubes and method of manufacturing a double wall steel tube

What is claimed is: 1. A tubing material comprising: an inner layer of iron alloy, the iron alloy being high strength low alloy (HSLA) steel; first and second outer layers of an alloy of aluminum and silicon; a first continuous intermediate layer disposed between the inner layer and the first outer layer, such that the inner layer does not contact the first outer layer; and a second continuous intermediate layer disposed between the inner layer and the second outer layer, such that the inner layer does not contact the second outer layer; wherein the first and second intermediate layers include aluminum, silicon and iron. 2. The tubing material of claim 1 , wherein the first and second outer layers have a silicon composition of approximately 1 weight % to approximately 15 weight %. 3. The tubing material of claim 1 , wherein the first and second outer layers have a silicon composition of approximately 12 weight %. 4. The tubing material of claim 1 , wherein the first and second outer layers each have a thickness of approximately 5 microns to approximately 16 microns. 5. The tubing material of claim 1 , wherein the first and second outer layers each have a thickness of about 10 microns. 6. The tubing material of claim 1 , wherein the first and second continuous intermediate layers include 44 weight % aluminum, 7 weight % silicon and 49 weight % iron. 7. A double wall steel tube comprising: an inner tube wall; an outer tube wall; and a brazed joint between the inner tube wall and the outer tube wall, the brazed joint not including a flux, wherein the inner tube wall and the outer tube wall are both formed from a tubing material including an inner layer of iron alloy, first and second outer layers of an alloy of aluminum and silicon, a first intermediate layer disposed between the inner layer and the first outer layer, and a second intermediate layer disposed between the inner layer and the second outer layer, and wherein the first and second intermediate layers include aluminum, silicon and iron. 8. The double wall steel tube of claim 7 , wherein the first and second outer layers have a silicon composition of approximately 1 weight % to approximately 15 weight %. 9. The double wall steel tube of claim 7 , wherein the first and second outer layers have a silicon composition of approximately 12 weight %. 10. The double wall steel tube of claim 7 , wherein the first and second outer layers each have a thickness of approximately 5 microns to approximately 16 microns. 11. The double wall steel tube of claim 7 , wherein the first and second outer layers have a thickness of about 10 microns. 12. The double wall steel tube of claim 7 , wherein the iron alloy is a high strength steel. 13. The double wall steel tube of claim 7 , wherein the first and second intermediate layers include 44 weight % aluminum, 7 weight % silicon and 49 weight % iron. 14. A method of manufacturing the double wall steel tube of claim 7 , the method comprising: dipping an iron alloy substrate into a liquid bath of aluminum and silicon to create outer layers of an alloy of aluminum and silicon on the steel substrate; reacting the aluminum and silicon with iron of the iron alloy substrate to create first and second intermediate layers of aluminum, silicon and iron; roll forming a resulting tubing material into a double wall tube having an inner tube wall and outer tube wall; and brazing the double wall tube to fuse the inner tube wall and the outer tube wall, wherein the brazing is performed without a flux. 15. The method of manufacturing a double wall steel tube of claim 14 , wherein brazing the double wall tube includes brazing at a temperature between approximately 480° C. and approximately 600° C. 16. The method of manufacturing a double wall steel tube of claim 14 , wherein the first and second outer layers have a silicon composition of approximately 1 weight % to approximately 15 weight %. 17. The method of manufacturing a double wall steel tube of claim 14 , wherein the first and second outer layers have a silicon composition of approximately 12 weight %. 18. The method of manufacturing a double wall steel tube of claim 14 , wherein the first and second outer layers each have a thickness of approximately 5 microns to approximately 16 microns. 19. The method of manufacturing a double wall steel tube of claim 14 , wherein the first and second outer layers each have a thickness of about 10 microns. 20. The method of manufacturing a double wall steel tube of claim 14 , wherein the iron alloy is a high strength steel. 21. The method of manufacturing a double wall steel tube of claim 14 , wherein the first and second intermediate layers include 44 weight % aluminum, 7 weight % silicon and 49 weight % iron.