Thermally conductive ring assemblies suitable for load centers

That which is claimed is: 1. A load center comprising: an enclosure having an interior compartment; a back pan in the interior compartment; one or more bus bars in the interior compartment; a circuit breaker comprising a housing in the interior compartment electrically engaged with the one or more bus bars; a conductive member attached to the circuit breaker; and a thermally conductive assembly comprising at least one inner member with longitudinally opposing first and second ends and an open channel connecting the first and second ends and holding the conductive member attached to the circuit breaker therein, wherein the thermally conductive assembly further comprises at least one outer member surrounding the at least one inner member, wherein the at least one inner member is thermally conductive, wherein the at least one inner member is configured with the first end facing the circuit breaker and the second end facing the back pan, and wherein the at least one inner member is a plurality of cooperating inner members that have inner surfaces that align to form an inner perimeter surrounding the open channel. 2. The load center of claim 1 , wherein the outer member is sufficiently flexible to be able to radially expand. 3. The load center of claim 1 , wherein the outer member includes a lip that resides over the first end of the at least one inner member. 4. The load center of claim 1 , wherein the outer member is a ring that is radially expandable and comprises one or more of rubber, a polymeric and/or an elastomeric material. 5. The load center of claim 1 , wherein the conductive member attached to the circuit breaker includes or is a plug that comprises copper or aluminum, and wherein at least one of the plurality of inner members comprises boron nitride. 6. The load center of claim 1 , wherein the conductive member attached to the circuit breaker comprises a plug that resides in the open channel above the back pan and above the second end of the plurality of inner members. 7. The load center of claim 1 , wherein the plurality of inner members each have a wall thickness greater than a wall thickness of the outer member, and wherein the outer member is flexible and can radially expand while providing a compressive inwardly extending force against the inner members. 8. The load center of claim 1 , wherein the plurality of inner members have inner and outer arcuate shapes that form a circular inner perimeter surrounding the open channel and a circular outer perimeter abutting the outer member. 9. The load center of claim 1 , wherein the circuit breaker housing has an open rectangular channel on an end thereof that holds a collar, wherein the conductive member attached to the circuit breaker comprises a plug that extends below the collar adjacent but above the back pan, and wherein, in position, each of the inner members have constant direct abutting contact with the back pan. 10. A method of installing a heat conduction device to a circuit breaker, comprising: providing a load center comprising an enclosure having an interior compartment, a back pan in the interior compartment, one or more bus bars in the interior compartment, a circuit breaker comprising a housing in the interior compartment electrically engaged with the one or more bus bars, and a conductive member attached to the circuit breaker; attaching a thermally conductive ring assembly to the conductive member attached to the circuit breaker, the thermally conductive ring assembly comprising an outer flexible ring surrounding a plurality of cooperating inner members that are aligned to form a perimeter about an open channel between longitudinally spaced apart first and second ends, wherein the inner members are configured with the first end facing the circuit breaker and the second end facing the back pan, and wherein the cooperating inner members have inner surfaces that align to form an inner perimeter surrounding the open channel; and providing a heat conduction path between the circuit breaker and the back pan through the thermally conductive ring assembly. 11. The method of claim 10 , wherein the conductive member comprises a plug that comprises copper and/or aluminum, and wherein prior to the attaching step, neighboring inner members of the cooperating inner members abut each other, and wherein the attaching comprises press fitting the plug into the open channel to force the neighboring inner members to separate while also radially expanding the outer member.