Circuit breaker shock absorber apparatus, assemblies, and methods of operation

What is claimed is: 1. A circuit breaker shock absorber apparatus, comprising: a circuit breaker housing; and a shock absorber coupled to the circuit breaker housing, the shock absorber including a base coupled to the circuit breaker housing and removably coupled to an absorber body comprising a damping material including a tangent delta at 10% strain and 10 Hz and at room temperature of greater than about 0.45, and a durometer of less than about 60 per ASTM D2240 Type A. 2. The shock absorber apparatus of claim 1 , wherein the absorber body comprises two different elastomer materials. 3. The shock absorber apparatus of claim 2 , further comprising: a core portion of the damping material; and an elastomer skin of a second elastomer material different from the damping material, the core portion being enclosed by the elastomer skin on at least two sides of the core portion. 4. The shock absorber apparatus of claim 3 , wherein the elastomer skin comprises a material selected from the group consisting of a thermoplastic vulcanizate material of polypropylene and ethylene propylene diene monomer (EPDM), a copolymer of tetrafluoroethylene and propylene (TFE/P), silicone, fluorocarbon, and fluoropolymer. 5. The shock absorber apparatus of claim 3 , wherein the elastomer skin comprises a durometer of greater than about 70 per ASTM D2240 Type A. 6. The shock absorber apparatus of claim 3 , wherein the elastomer skin comprises a thickness of less than about 3 mm. 7. The shock absorber apparatus of claim 1 , wherein the damping material comprises a durometer of between about 20 and about 60 per ASTM D2240 Type A. 8. The shock absorber apparatus of claim 7 , wherein the damping material comprises a durometer of between about 40 and about 60 per ASTM D2240 Type A. 9. The shock absorber apparatus of claim 1 , wherein the damping material comprises a tangent delta at 10% strain and 10 Hz and at room temperature of between about 0.45 and about 0.70. 10. The shock absorber apparatus of claim 1 , wherein the damping material comprises a tangent delta at 10% strain and 10 Hz and at room temperature of between about 0.45 and about 0.60. 11. The shock absorber apparatus of claim 1 , wherein the damping material comprises bromo butyl rubber. 12. The shock absorber apparatus of claim 1 , wherein the absorber body comprises a core portion including a base surface adjacent to the base, and first and second sidewalls extending from the base surface, the first and second sidewalls comprising non-parallel surfaces. 13. The shock absorber apparatus of claim 1 , wherein the absorber body comprises a mounting face, a supported side face, and at least two unsupported faces intersecting at a free edge. 14. The shock absorber apparatus of claim 1 , further comprising: first and second frame portions, the shock absorber being coupled to the circuit breaker housing by the first and second frame portions, and the base includes tabs inserted into the first and second frame portions. 15. A circuit breaker shock absorber assembly, comprising: a circuit breaker housing including a mounting portion and a supporting wall; a side pole shock absorber including a base plate coupled to the mounting portion and to an absorber body, the absorber body being supported by the supporting wall, the absorber body comprising an inner core portion of a damping elastomer material including a tangent delta at 10% strain and 10 Hz and at room temperature of greater than about 0.45 and a durometer of less than about 60 per ASTM D2240 Type A; and one or more moveable contact arms configured and operable to contact the side pole shock absorber. 16. A circuit breaker shock absorber assembly, comprising: a circuit breaker housing; a frame including spaced apart first and second frame portions; a center pole shock absorber including a base coupled to the frame portions, and an absorber body coupled to the base, the absorber body comprising a core portion of a damping elastomer material including a tangent delta at 10% strain and 10 Hz and at room temperature of greater than about 0.45, and a durometer of less than about 60 per ASTM D2240 Type A; and one or more moveable contact arms configured and operable to contact the center pole shock absorber. 17. A circuit breaker shock absorber assembly, comprising: a circuit breaker housing including at least two pole regions; a frame including spaced apart first and second frame portions coupled to the housing at one of the at least two pole regions; a center shock absorber including a center base coupled to the first and second frame portions, a center absorber body coupled to the base, the center absorber body comprising a center core portion of a damping material including a tangent delta at 10% strain and 10 Hz and at room temperature of greater than about 0.45 and a durometer of less than about 60 per ASTM D2240 Type A; at least one side pole shock absorber including a side base coupled to a mounting wall of the circuit breaker housing, and a side absorber body comprising an side core portion of a damping elastomer material including a tangent delta at 10% strain and 10 Hz and at room temperature of greater than about 0.45 and a durometer of less than about 60 per ASTM D2240Type A; and one or more moveable contact arms provided at the at least two pole regions and operable to contact the center pole shock absorber and the at least one side pole shock absorber. 18. A circuit breaker shock absorber subassembly, comprising: a frame including spaced apart first and second frame portions; and a center pole shock absorber including a base coupled to the frame portions, and an absorber body coupled to the base, the absorber body comprising a core portion of a damping elastomer material including a tangent delta at 10% strain and 10 Hz and at room temperature of greater than about 0.45, and a durometer of less than about 60 per ASTM D2240 Type A. 19. A method of operating a breaker shock absorber assembly, comprising: providing a circuit breaker housing; providing a shock absorber coupled to the circuit breaker housing, the shock absorber including a base coupled to the circuit breaker housing and an absorber body coupled to the base, the absorber body comprising a damping material including a tangent delta at 10% strain and 10 Hz and at room temperature of greater than about 0.45 and a durometer of less than about 60 per ASTM D2240 Type A; and absorbing kinetic energy of one or more moveable contact arms by contact with the shock absorber. 20. The method of claim 19 , further comprising: contacting an elastomer skin of the shock absorber, the elastomer skin being manufactured from an elastomer material including a durometer of greater than about 70 per ASTM D2240 Type A. 21. The method of claim 19 , further comprising: contacting an elastomer skin of the shock absorber, the elastomer skin being manufactured from a second elastomer material including a continuous dry heat rating of greater than about 340° F. that prevents burning of an absorber body covered by the elastomer skin. 22. The method of claim 19 , further comprising: providing the shock absorber with a mounting face, a supported side face, and at least two unsupported faces intersecting at a free edge; and contacting at least the free edge with the one or more moveable contact arms.