Reforming mandrel geometry for flatness control

The invention claimed is: 1. A reforming mandrel comprising: an upstream portion having an intake inlet for fluid flow; a downstream portion axially spaced from the upstream portion, the downstream portion having a flattened cross-section defined by flattened peripheral portions joined by curved peripheral portions, at least one curved peripheral portion made of porous material resistant to a temperature of at least 1000° C.; and an at least partially hollow interior communicating with the intake inlet and the porous material; wherein the at least one curved peripheral portion comprises at least one passage that extends alongside the at least partially hollow interior. 2. The reforming mandrel of claim 1 , wherein the porous material comprises carbon. 3. The reforming mandrel of claim 2 , wherein the porous material comprises graphite. 4. The reforming mandrel of claim 1 , wherein the porous material is resistant to a temperature of at least 1200° C. 5. The reforming mandrel of claim 1 , wherein the intake inlet is configured to allow gas to enter into the at least partially hollow interior and wherein the porous material is configured to allow gas to permeate to an exterior of the reforming mandrel. 6. The reforming mandrel of claim 1 , wherein the at least one passage communicating with the at least partially hollow interior. 7. The reforming mandrel of claim 6 , wherein the at least one passage comprises a first passage and a second passage, the first passage having a first corresponding exterior surface, the second passage having a second corresponding exterior surface, wherein the first corresponding exterior surface is progressively reduced to the flattened cross-section via a second corresponding exterior surface. 8. The reforming mandrel of claim 1 , wherein two flattened peripheral portions are separated by a first width, and wherein the at least one curved peripheral portion has a second width that is greater than the first width. 9. The reforming mandrel of claim 8 , comprising two curved peripheral portions separated by the flattened peripheral portions, wherein there is a corner between each flattened peripheral portion and each curved peripheral portion and further wherein at least one passage is provided adjacent to each corner. 10. The reforming mandrel of claim 9 , wherein the intake inlet is configured to allow gas to enter into the at least partially hollow interior and wherein the porous material and at least one passage are each configured to allow gas to permeate to an exterior of the reforming mandrel. 11. The reforming mandrel of claim 10 , wherein the gas is at a gas pressure when it reaches the exterior of the reforming mandrel and wherein the gas pressure is higher adjacent to each corner than it is away from each corner. 12. A method for producing a glass sleeve with a flattened portion comprising: a. providing a substantially cylindrical glass tube made of glass, the substantially cylindrical tube having a longitudinal axis and an inner curved surface enclosing a space; b. heating at least a portion of the substantially cylindrical tube to a temperature within the softening range of the glass; c. moving the softened substantially cylindrical tube over a reforming mandrel to reform the glass tube into a glass sleeve with a flattened portion; wherein the reforming mandrel comprises an upstream portion having an intake inlet for fluid flow, a downstream portion axially spaced from the upstream portion, the downstream portion having a flattened cross-section defined by flattened peripheral portions joined by curved peripheral portions, at least one curved peripheral portion made of porous material resistant to a temperature of at least 1000° C., and an at least partially hollow interior communicating with the intake inlet and the porous material; wherein the at least one curved peripheral portion comprises at least one passage that extends alongside the at least partially hollow interior. 13. The method of claim 12 , wherein the porous material is resistant to a temperature of at least 1200° C. 14. The method of claim 12 , further comprising allowing gas to enter through the intake inlet into the at least partially hollow interior and permeate to an exterior of the reforming mandrel through the porous material. 15. The method of claim 12 , wherein the at least one passage communicating with the at least partially hollow interior. 16. The method of claim 15 , wherein the at least one passage comprises a first passage and a second passage, the first passage having a first corresponding exterior surface, the second passage having a second corresponding exterior surface, wherein the first corresponding exterior surface is progressively reduced to the flattened cross-section via the second corresponding exterior surface. 17. The method of claim 12 , wherein two flattened peripheral portions are separated by a first width, and wherein the at least one curved peripheral portion has a second width that is greater than the first width. 18. The method of claim 17 , wherein the reforming mandrel further comprises two curved peripheral portions separated by the flattened peripheral portions, wherein there is a corner between each flattened peripheral portion and each curved peripheral portion and further wherein at least one passage is provided adjacent to each corner. 19. The method of claim 18 , further comprising allowing gas to enter through the intake inlet into the at least partially hollow interior and permeating to an exterior of the reforming mandrel through the porous material and at least one passage. 20. The method of claim 19 , wherein the gas is at a gas pressure when it reaches the exterior of the reforming mandrel and wherein the gas pressure is higher adjacent to each corner than it is away from each corner.