Segmented backup ring, system and method

What is claimed is: 1. A segmented backup ring comprising: a plurality of individual segments each having curved surfaces that define an arcuate portion of the ring, each segment including: a body section having the arcuate profile and defining a receptacle therein extending from an outer periphery surface of the body section, and the receptacle having a circumferential dimension; a projection section having a head portion and a neck portion and extending from the body section in a circumferential direction of the ring, the projection section being receivable and retainable in the receptacle of an adjacent segment body section, and the head portion having a dimension in line with the circumferential direction of the ring that is shorter than the circumferential dimension of the receptacle, wherein the circumferential dimension of the receptacle relative to the circumferential dimension of the head dictates change in radial dimension of the ring during setting. 2. The ring as claimed in claim 1 , wherein a surface of the head coming into contact with a surface of the receptacle limits radial expansion of the backup ring. 3. The ring as claimed in claim 1 , wherein the change in radial dimension of the ring is limited to create a gap between the ring and a tubular structure in which the ring to be set to reduce friction drag of the ring against the tubular structure during setting. 4. The ring as claimed in claim 1 , further being biased to a smallest circumferential dimension of the ring. 5. The ring as claimed in claim 1 , further including a resilient member. 6. The ring as claimed in claim 5 , wherein the resilient member is disposed circumferentially about the plurality of segments. 7. The ring as claimed in claim 5 , wherein the resilient member is disposed between a number of the plurality of segments. 8. The ring as claimed in claim 5 , wherein the resilient member is disposed along side of the plurality of segments. 9. The ring as claimed in claim 1 , wherein the receptacle includes a head receiver and a neck receiver. 10. The ring as claimed in claim 9 , wherein the neck receiver is of smaller dimensions than the head receiver. 11. The ring as claimed in claim 9 , wherein the neck receiver presents a stop shoulder that interacts with the head when the ring is fully expanded. 12. The ring as claimed in claim 9 , wherein a detent is disposed at the neck receiver allowing passage of the neck into the neck receiver and preventing exit of the neck from the neck receiver. 13. A seal system comprising: an element; a backup ring as claimed in claim 1 . 14. A wellbore system comprising: a borehole; a seal system having an element and a backup ring as claimed in claim 1 disposed in the borehole. 15. A method for sealing in a borehole comprising: running a seal system having an element and a backup ring as claimed in claim 1 into a borehole; radially expanding the backup ring to a dimension less than the inside surface dimension of a tubular structure in which the seal system is to be set and limiting the radial expansion to the lesser dimension; and setting the element. 16. The method as claimed in claim 15 , wherein the expanding is by urging the backup ring radially outwardly resulting in the head moving within the receptacle until a surface of the head contacts a surface of the receptacle thereby limiting further movement of the backup ring radially outwardly. 17. The method as claimed in claim 15 , further including retracting the backup ring using a resilient member. 18. The method as claimed in claim 15 , further including assembling the backup ring of claim 1 by disposing the head of each segment into the receptacle of the adjacent segment until a completed ring shape is formed and associating a resilient member with the completed ring shape. 19. A segment for a segmented backup ring comprising: a body section having an arcuate profile and defining a receptacle therein extending from an outer periphery surface of the body section, and the receptacle having a dimension in a direction of an arc of the arcuate profile; a projection section having a head portion and a neck portion and extending from the body section in the direction of the arc of the arcuate profile, the projection section being receivable and retainable in the receptacle of an adjacent segment body section, and the head portion having a dimension in line with the direction of the arc of the arcuate profile that is shorter than the dimension of the receptacle in the direction of the arc of the arcuate profile, wherein the circumferential dimension of the receptacle relative to the circumferential dimension of the head dictates change in radial dimension of the ring during setting. 20. A segmented backup ring comprising: a plurality of individual segments each having curved surfaces that define an arcuate portion of the ring, each segment including: a body section having the arcuate profile and defining a receptacle therein having a circumferential dimension; a projection section having a head portion and a neck portion and extending from the body section in a circumferential direction of the ring, the projection section being receivable and retainable in the receptacle of an adjacent segment body section, and the head portion having a dimension in line with the circumferential direction of the ring that is shorter than the circumferential dimension of the receptacle such that the head is slidable circumferentially in the recess to enable expanding or contracting of the ring, wherein a change in radial dimension of the ring is limited to create a gap between the ring and a tubular structure in which the ring to be set to reduce friction drag of the ring against the tubular structure during setting. 21. A segmented backup ring comprising: a plurality of individual segments each having curved surfaces that define an arcuate portion of the ring, each segment including: a body section having the arcuate profile and defining a receptacle therein having a circumferential dimension; a projection section having a head portion and a neck portion and extending from the body section in a circumferential direction of the ring, the projection section being receivable and retainable in the receptacle of an adjacent segment body section, and the head portion having a dimension in line with the circumferential direction of the ring that is shorter than the circumferential dimension of the receptacle, such that the head is slidable circumferentially in the recess to enable expanding or contracting of the ring, wherein a resilient member is in a groove on a periphery of the plurality of segments. 22. A segmented backup ring comprising: a plurality of individual segments each having curved surfaces that define an arcuate portion of the ring, each segment including: a body section having the arcuate profile and defining a receptacle therein extending from an outer periphery surface of the body section, and the receptacle having a circumferential dimension; a projection section having a head portion and a neck portion and extending from the body section in a circumferential direction of the ring, the projection section being receivable and retainable in the receptacle of an adjacent segment body section, and the head portion having a dimension in line with the circumferential direction of the ring that is shorter than the circumferential dimension of the receptacle, including a resilient member having a fir