Crimping methods for thin-walled scaffolds

What is claimed is: 1. A method, comprising: using a scaffold made from a tube comprising a polymer, the polymer having a glass transition temperature, the scaffold having an outer diameter and the outer diameter having a before crimping size; using a balloon having a nominal diameter; using a crimping device having a plurality of blades configured to form an aperture, wherein the blades are rotated relative to each other to increase or decrease the size of the aperture during crimping; using a polymer material disposed within the aperture; and crimping the scaffold to the balloon, the crimping comprising: placing the scaffold and the balloon within the aperture, wherein the polymer material is between a surface of the scaffold and a surface of the blades, reducing the diameter of the scaffold from the before crimping size to a first size, after the scaffold has about the first size, resetting the polymer material within the aperture, reducing the diameter of the scaffold from the first size to a second size, after the scaffold has about the second size, resetting the polymer material within the aperture, and reducing the diameter of the scaffold from the second size to a third size or a final crimp size. 2. The method of claim 1 , wherein the crimping device is a film-headed crimper. 3. The method of claim 1 , wherein the polymer material are polymer sheets. 4. The method of claim 1 , wherein the polymer material comprises a plurality of sheaths. 5. The method of claim 1 , wherein the scaffold has a crimping temperature during crimping. 6. The method of claim 1 , wherein the before crimping size is greater than the nominal diameter of the balloon. 7. The method of claim 1 , wherein the balloon is pressurized during each of the reducing the diameter steps. 8. The method of claim 1 , wherein the crimping step further includes the step of removing the scaffold and balloon from the crimping device after the scaffold diameter is reduced to the first size, then returning the scaffold to the crimping device. 9. The method of claim 8 , wherein the resetting of the polymer material after the scaffold has about the first size occurs when the scaffold and balloon are removed from the crimping device. 10. The method of claim 8 , wherein the balloon is a first balloon, further including the step of replacing the first balloon with a second balloon of a balloon catheter when the scaffold is removed from the crimping device, and the scaffold is crimped to the second balloon. 11. The method of claim 1 , wherein the polymer material within the aperture is re-set more than 2 times during the crimping. 12. The method of claim 1 , wherein before and after reducing the scaffold diameter from the first size to the second size the aperture is held constant while the balloon has the nominal diameter. 13. A method of crimping a stent, comprising: performing a crimping procedure, the crimping procedure comprising (i) position the stent over a balloon and within an aperture of a crimping device; (ii) providing a sheet within the aperture to protect the stent; and (iii) reducing a diameter of the stent by reducing a diameter of the aperture of the crimping device; wherein the reducing the diameter of the stent is performed in multiple stages of diameter reduction until a final crimped diameter is reached, wherein the sheet is reset at least 2 times but no more than 5 times until the stent is crimped to the final crimped diameter, the reset occurring only when the diameter of the stent is reduced by about 30-35% between any of the stages, and the reset occurring only when the aperture of the crimping device is in an open position so as to not interfere with the resetting of the sheet. 14. The method of claim 13 , additionally comprising performing a pre-crimping procedure, the pre-crimping procedure comprising (a) placing the stent over the balloon or a pre-crimping balloon; (b) inflating the balloon or the pre-crimping balloon by application of a pressure; and (c) reducing the diameter of the stent to a diameter selected for the start of the crimping procedure, wherein if a pre-crimping balloon is used, the stent is then transferred to the balloon from the pre-crimping balloon before the start of the crimping procedure. 15. The method of claim 13 , additionally comprising performing a pre-crimping procedure, the pre-crimping procedure comprising (a) placing the stent over the balloon or a pre-crimping balloon; (b) placing the stent within the aperture of the crimping device; (c) setting the diameter of the aperture of the crimping device to a selected size; (d) optionally heating the stent while the diameter of the aperture is maintained the selected size; (e) inflating the balloon or the pre-crimping balloon by application of a pressure; and (f) reducing the diameter of the stent to a diameter selected for the start of the crimping procedure, wherein if a pre-crimping balloon is used, the stent is then transferred to the balloon from the pre-crimping balloon before the start of the crimping procedure. 16. The method of claim 13 , wherein each stage of the multiple stages of diameter reduction comprises: (a) having the aperture of the crimping device at a selected size; (b) optionally heating the stent while the aperture is maintained at the selected size; (c) inflating the balloon to a selected size by application of a pressure; (d) reducing the diameter of the stent to a selected size by reducing the size of the aperture; and (e) maintaining the aperture of the crimping device for a dwell period of time when the stent reaches the selected size. 17. A method, comprising: using a scaffold made from a tube comprising a polymer, the polymer having a glass transition temperature, the scaffold having an outer diameter and the outer diameter having a before crimping size; using a balloon having a nominal diameter; using a crimping device having a plurality of blades configured to form an aperture; using a polymer material disposable within the aperture; and crimping the scaffold to the balloon, the crimping comprising: placing the scaffold and balloon within the aperture so that the polymer material is between a scaffold surface and a surface of the blades, reducing the diameter of the scaffold from the before crimping size to a final crimped size, wherein the polymer material within the aperture is reset, when the aperture is in an open state, between 2 and 5 times while the scaffold diameter is reduced from the before crimping size to the final crimped size. 18. The method of claim 17 , wherein the polymer material comprises sheaths having different sizes. 19. The method of claim 17 , wherein the polymer material are sheets operated by a film-headed crimper. 20. A method, comprising: using a scaffold made from a tube comprising a polymer, the polymer having a glass transition temperature, the scaffold having an outer diameter and the outer diameter having a before crimping size; using a balloon having a nominal diameter; using a crimping device having a plurality of blades configured to form an aperture, wherein the blades are rotated relative to each other to increase or decrease a size of the aperture during crimping; using a polymer material disposable within the aperture; and crimping the scaffold to the balloon, the crimping comprising: placing the scaffold and balloon within the aperture, reducing the diameter of the scaffold from the before crimping size to a first size that