Tube and a method of manufacturing a tube

The invention claimed is: 1. An iron-chromium-aluminium alloy tube, comprising: a tube wall extending along a longitudinal axis; and a helical welded seam, wherein an inner diameter of the tube is 70 mm or less and the tube wall has a thickness of 0.35 mm or less, wherein the inner diameter of the tube is constant or almost constant along the longitudinal axis of the tube, wherein the helical welded seam extends at a helix angle of 40-70 degrees with respect to the longitudinal axis of the tube, and wherein the iron-chromium-aluminium alloy comprises: 5-25 wt. % Cr, 2.5-8 wt. % Al, 0-5 wt. % Mo, and the balance being Fe and normally occurring impurities, and optionally other intentionally added alloying elements. 2. The high temperature iron-chromium-aluminium alloy tube according to claim 1 , wherein the thickness of the tube wall is 0.5% of the inner diameter of the tube. 3. The high temperature iron-chromium-aluminium alloy tube according to claim 1 , wherein the iron-chromium-aluminium alloy comprises: 9-25 wt. % Cr, 4-6 wt. % Al, 0-5 wt. % Mo, the balance being Fe and normally occurring impurities, and optionally other intentionally added alloying elements. 4. The high temperature iron-chromium-aluminium alloy tube according to claim 3 , wherein content of Cr in the iron-chromium-aluminium alloy is 11 to 17 wt. %. 5. The high temperature iron-chromium-aluminium alloy tube according to claim 3 , wherein content of Cr in the iron-chromium-aluminium alloy is 20.5 to 25 wt. %. 6. The high temperature iron-chromium-aluminium alloy tube according to claim 3 , wherein the alloying elements include one or more elements selected from: 0.05-0.60 wt. % Y, 0.01-0.40 wt. % Zr, 0.05-0.50 wt. % Hf, 0.05-0.50 wt. % Ta, 0-0.10 wt. % Ti, 0.01-0.05 wt. % C, 0.01-0.06 wt. % N, 0.02-0.10 wt. % O, 0.05-0.50 wt. % Mn, 0-0.08 wt. % P, 0-0.005 wt. % S. 7. The high temperature iron-chromium-aluminium alloy tube according to claim 3 , wherein the alloying elements include one or more elements selected from: 0.01-0.1 wt. % C, 0.001-0.1 wt. % N, 0.02-0.10 wt. % O, 0-0.01 wt. % B, 0-0.5 wt. % Mn, 0-0.2 wt. % total of Sc+Ce+La, 0-1.7 wt. % Ti, 0-0.4 wt. % Zr, 0-0.4 wt. % Nb, 0-0.1 wt. % V, 0-0.3 wt. % total of Hf+Ta+Th. 8. The high temperature iron-chromium-aluminium alloy tube according to claim 1 , wherein content of Cr in the iron-chromium-aluminium alloy is 5 to 15 wt. %. 9. The high temperature iron-chromium-aluminium alloy tube according to claim 1 , wherein content of Cr in the iron-chromium-aluminium alloy is 11 to 17 wt. %. 10. The high temperature iron-chromium-aluminium alloy tube according to claim 1 , wherein content of Cr in the iron-chromium-aluminium alloy is 20.5 to 25 wt. %. 11. The high temperature iron-chromium-aluminium alloy tube according to claim 1 , wherein content of Al in the iron-chromium-aluminium alloy is 3 to 7 wt. %. 12. The high temperature iron-chromium-aluminium alloy tube according to claim 1 , wherein content of Al in the iron-chromium-aluminium alloy is 5 to 7 wt. %. 13. The high temperature iron-chromium-aluminium alloy tube according to claim 1 , wherein content of Mo in the iron-chromium-aluminium alloy is 1 to 4 wt. %. 14. The high temperature iron-chromium-aluminium alloy tube according to claim 1 , further comprising 0.1 to 3 wt. % Si. 15. A method of manufacturing the high temperature iron-chromium-aluminium alloy tube according to claim 1 , the method comprising the steps of: preheating a continuous strip of the high temperature iron-chromium-aluminium alloy; feeding the preheated continuous strip of the high temperature iron-chromium-aluminium alloy toward a tube shaping station; helically winding the strip in the tube shaping station such that long edges of the strip abut each other and a rotating tube moving forward in a direction parallel to its longitudinal axis is formed; continuously joining said abutting long edges together in a welding process directly when the high temperature FeCrAl alloy tube is formed, whereby the high temperature iron-chromium-aluminium alloy tube is obtained; and annealing the formed high temperature FeCrAl alloy tube. 16. The method according to claim 15 , wherein the preheated continuous strip of the high temperature iron-chromium-aluminium alloy has a width between 160 mm and 540 mm. 17. The method according to claim 15 , wherein the welding process is selected from a fusion welding process or a solid state joining process. 18. The method according to claim 15 , wherein the welding process is selected from one of a tungsten inert gas welding process, a metal inert gas welding process, a laser welding process, and a plasma arc welding process. 19. The method according to claim 15 , wherein a shielding gas is used during the welding process and wherein the shielding gas is an inert gas. 20. A heating device comprising a radiant tube, wherein the radiant tube is the high temperature iron-chromium-aluminium alloy tube according to claim 1 .