Expansion control device and tire mold using same

What is claimed is: 1. A mold device for a pneumatic tire, comprising: a segmented tire mold comprising: a plurality of mold segments each having a radially inner surface and a radially outer surface, wherein the radially inner surface of each mold segment has a molding surface, and a first axial half and a second axial half; and at least one expansion control device having: a radially inner surface, a first portion oriented circumferentially around, and radially-outward of, the radially outer surface of the first axial half of the segmented tire mold, a second portion oriented circumferentially around, and radially-outward of, the radially outer surface of the second axial half of the segmented tire mold, a first side plate secured to an axially outer surface of the first axial half of the segmented tire mold, a second side plate secured to an axially outer surface of the second axial half of the segmented tire mold, a first retaining ring oriented circumferentially around a radially outer surface of the first axial half of the segmented tire mold, and a second retaining ring oriented circumferentially around a radially outer surface of the second axial half of the segmented tire mold; wherein the first portion of the expansion control device is oriented axially between the first side plate and the first retaining ring, wherein the second portion of the expansion control device is oriented axially between the second side plate and the second retaining ring, wherein the radially inner surface of the expansion control device is oriented circumferentially around, and radially outwardly of, the radially outer surface of the mold segments, wherein the expansion control device applies a force radially inwardly to the mold segments, and wherein the expansion control device is a cable. 2. The mold device of claim 1 , wherein the cable is wrapped circumferentially around the mold segments at least one revolution. 3. The mold device of claim 1 , further comprising: at least one tension bladder having a radially inner surface and a radially outer surface, wherein the radially inner surface of the tension bladder is oriented circumferentially around, and radially outwardly of, the radially outer surface of the mold segments, and wherein the radially inner surface of the expansion control device is oriented circumferentially around, and radially outwardly of, the radially outer surface of the tension bladder. 4. A mold device for a pneumatic tire, comprising: a segmented tire mold comprising: a plurality of mold segments each having a radially inner surface and a radially outer surface, wherein the radially inner surface of each mold segment has a molding surface, and a first axial half and a second axial half; and at least one expansion control device having: a radially inner surface, a first portion oriented circumferentially around, and radially-outward of, the radially outer surface of the first axial half of the segmented tire mold, a second portion oriented circumferentially around, and radially-outward of, the radially outer surface of the second axial half of the segmented tire mold, a first side plate secured to an axially outer surface of the first axial half of the segmented tire mold, a second side plate secured to an axially outer surface of the second axial half of the segmented tire mold, a first retaining ring oriented circumferentially around a radially outer surface of the first axial half of the segmented tire mold, and a second retaining ring oriented circumferentially around a radially outer surface of the second axial half of the segmented tire mold; wherein the first portion of the expansion control device is oriented axially between the first side plate and the first retaining ring, wherein the second portion of the expansion control device is oriented axially between the second side plate and the second retaining ring, wherein the radially inner surface of the expansion control device is oriented circumferentially around, and radially outwardly of, the radially outer surface of the mold segments, wherein the expansion control device applies a force radially inwardly to the mold segments, and wherein the expansion control device is at least one ring. 5. The mold device of claim 4 , wherein the expansion control device is a plurality of rings oriented circumferentially around the segmented tire mold. 6. The mold device of claim 4 , further comprising: at least one tension bladder having a radially inner surface and a radially outer surface, wherein the radially inner surface of the tension bladder is oriented circumferentially around, and radially outwardly of, the radially outer surface of the mold segments, and wherein the radially inner surface of the expansion control device is oriented circumferentially around, and radially outwardly of, the radially outer surface of the tension bladder. 7. A mold device for a pneumatic tire, comprising: a segmented tire mold comprising: a plurality of mold segments each having a radially inner surface and a radially outer surface, wherein the radially inner surface of each mold segment has a molding surface, a first axial half, and a second axial half; at least one expansion control device having a radially inner surface comprising: a first portion, and a second portion; and a first tension bladder having a radially inner surface and a radially outer surface; wherein the first tension bladder is oriented circumferentially around the radially outer surface of the first axial half of the segmented tire mold; a second tension bladder having a radially inner surface and a radially outer surface, wherein the second tension bladder is oriented circumferentially around the radially outer surface of the second axial half of the segmented tire mold wherein the radially inner surface of the first and second tension bladders is oriented circumferentially around, and radially outwardly of, the radially outer surface of the mold segments, wherein the radially inner surface of the expansion control device is oriented circumferentially around, and radially outwardly of, the radially outer surface of the first and second tension bladders, wherein the first portion of the expansion control device is oriented circumferentially around, and radially-outwardly of, the radially outer surface of the first tension bladder, wherein the second portion of the expansion control device is oriented circumferentially around, and radially-outwardly of, the radially outer surface of the second tension bladder, wherein the expansion control device applies a force radially inwardly to the mold segments, wherein the tension bladder is configured to be expandable in volume, wherein expansion in volume of the tension bladder places the expansion control device in tension, and wherein the expansion control device is at least one of: a cable and a ring. 8. The mold device of claim 7 , wherein the expansion control device is a cable wrapped circumferentially around the mold segments at least one revolution. 9. The mold device of claim 7 , wherein the expansion control device is a plurality of rings oriented circumferentially around the segmented tire mold. 10. The mold device of claim 7 , wherein the mold device further comprises: a first side plate and a second side plate, wherein the first side plate is secured to an axially outer surface of the first axial half of the segmented tire mold, and wherein the second side plate is secured to an axially outer surface of the second axial half of the segmented tire mold; and wherein the expansion control device further comprises a first retaining ring and a second retai