Method of calibrating an extruded straight tube

What is claimed is: 1. A method comprising: placing an extruded tube in an openable cavity defined by a tool, wherein the tube is fully contained within the cavity except for a first end and a second end of the tube, and wherein a shim prevents the tool from tightly engaging the tube with a clearance being defined between the tube and the cavity; applying a first clamp to the first end of the tube and a second clamp to the second end of the tube; and stretching the tube in a longitudinal direction to straighten the tube. 2. The method of claim 1 wherein the extruded tube further comprises an elongated extruded tube having a plurality of interior walls that define a plurality of closed cells within an outer wall. 3. The method of claim 1 wherein the tube has a flange with a thickness “t”, and wherein the clearance between the tube and the cavity is “t”+between 0.025 mm and 0.5 mm. 4. The method of claim 1 wherein the tube is stretched from 1% to 4% in length. 5. The method of claim 1 wherein the tube is stretched 3% in length. 6. The method of claim 1 wherein the tube has at least one flange extending outwardly from an outer wall of the tube. 7. A calibration tool for straightening a linear extruded tube, comprising: a first part of the tool defining a first part of a cavity; a second part of the tool defining a second part of the cavity; a clamping mechanism opens the tool to permit the tube to be placed in the cavity and closes the tool against a shim to clamp and enclose the tube along a length of the tube between a first clamp and a second clamp except where the first and second clamps are applied to the tube; and a stretching mechanism grips two ends of the tube and stretches the tube longitudinally with the clamping mechanism closed. 8. The calibration tool of claim 7 wherein the extruded tube further comprises an elongated extruded tube having a plurality of interior walls within an outer wall that define a plurality of closed cells. 9. The calibration tool of claim 7 wherein the shim between first and second parts of the tool define a clearance space between the tube and the cavity with the clamping mechanism closed to prevent the first and second parts from tightly engaging the tube. 10. The calibration tool of claim 7 wherein the stretching mechanism stretches the tube from 1% to 4% in length. 11. The calibration tool of claim 7 wherein the stretching mechanism stretches the tube 3% in length. 12. The calibration tool of claim 7 wherein the tube has at least one flange extending outwardly from an outer wall of the tube. 13. A method of making a tubular blank for a manufacturing operation comprising: extruding an aluminum alloy through a die to form an extruded tube having a flange having a thickness “t”; cutting the tube to a length; opening a tool that defines a cavity, wherein the tool has an open position and a closed position; loading the tube into the tool in the open position; closing the tool over the tube, wherein a shim having a thickness “t”+0.025 mm and 0.5 mm defines a clearance space between the tube and the cavity, and wherein the entire length of the tube is disposed within the cavity; applying a first clamp to a first end of the tube and a second clamp to second end of the tube; and stretching the tube in a longitudinal direction to straighten the tube and form the tubular blank to a calibrated straight shape. 14. The method of claim 13 wherein the tube further comprises an elongated tube having a plurality of interior walls that define a plurality of closed cells within an outer wall. 15. The method of claim 13 wherein the tube is stretched from 1% to 4% in length.