Sheaths used in polymer scaffold delivery systems

What is claimed is: 1. A method for crimping, comprising: using a scaffold having a scaffold diameter, the scaffold being made from a polymer tube and having a plurality of rings interconnected by links; using a balloon catheter; using a sheath having a sheath diameter, the sheath being configurable between an un-deformed state and a deformed state by radially stretching the sheath along its entire circumference, wherein the sheath is a tube having an undeformed diameter (d 0 ) and when radially stretched the sheath has a deformed diameter (d 3 ) at both ends thereof, and d 3 >d 0 ; crimping the scaffold to the balloon catheter including reducing the scaffold diameter from a first diameter (d 1 ) to a second diameter (d 2 ) by plastic deformation of the scaffold, wherein a ratio d 1 /d 2 is at least 2.5; and reducing recoil effects in the crimped scaffold, comprising steps of deforming the sheath, including configuring the sheath into its deformed state to enable the sheath to receive the crimped scaffold, wherein d 3 >d 2 , receiving the crimped scaffold within the sheath configured in the deformed state, and after the crimped scaffold is received within the sheath configured in the deformed state, allowing the sheath to return to substantially the un-deformed state and attach to a surface of the scaffold rings; wherein the sheath is configured for being manually removed from the scaffold before the scaffold is placed within a body. 2. The method of claim 1 , wherein the ratio d 1 /d 2 is greater than 3 or between 3 and 4. 3. The method of claim 1 , wherein the step of reducing recoil effects further includes a step of maintaining the sheath in the deformed state using a supporting member having a bore, the receiving the crimped scaffold within the sheath step includes receiving the crimped scaffold within both the sheath and the supporting member bore, and the step of allowing the sheath to return to substantially the un-deformed state includes a step of removing the supporting member from the sheath or removing the sheath from the supporting member. 4. The method of claim 3 , wherein the supporting member is a first and a second collet, each of which having a bore and supporting, respectively, a first and a second end of the sheath. 5. The method of claim 3 , wherein the supporting member is a tube. 6. The method of claim 3 , wherein the sheath has ends and a v-shaped cut is present at one or both of the ends. 7. The method of claim 1 , further comprising a step of forming a weakened area on the sheath after the sheath is allowed to return to substantially the un-deformed state. 8. A method for crimping, comprising: using a scaffold having a scaffold diameter, the scaffold being made from a polymer tube and having a plurality of rings formed by struts connected at crowns; using a balloon catheter; using a tubular sheath having ends, a sheath diameter and a v-shaped cut is present at one or both of the ends; crimping the scaffold to the balloon catheter including reducing the scaffold diameter from a first diameter (d 1 ) to a second diameter (d 2 ) by plastic deformation of the scaffold, wherein a ratio d 1 /d 2 is at least 2.5; and reducing recoil effects in the crimped scaffold, comprising steps of radially stretching the sheath along its entire circumference to increase the sheath diameter from an undeformed diameter (d 0 ) to a deformed diameter (d 3 ) at both of its ends, wherein d 0 is less than d 2 and d 3 is greater than d 2 , receiving the crimped scaffold within the radially stretched sheath, and after the crimped scaffold is received within the radially stretched sheath, allowing the radially stretched sheath to return to a substantially un-deformed state, thereby attaching to surfaces of the scaffold struts; wherein the sheath is configured for being manually removed from the scaffold before the scaffold is placed within a body. 9. The method of claim 8 , wherein the step of reducing recoil effects in the crimped scaffold step includes a step of supporting the radially stretched sheath on a support member while the crimped scaffold is received within the radially stretched sheath. 10. The method of claim 9 , wherein the supporting member is a first and a second collet, each of which having a bore and supporting, respectively, first and second ends of the radially stretched sheath. 11. The method of claim 9 , wherein the supporting member is a tube.