Circuit breaker and apparatus including slot-retained armature linkage and methods of fabricating the same

That which is claimed: 1. A circuit breaker comprising: a frame; at least one conductor supported by the frame; a breaker mechanism supported by the frame and comprising a trip bar assembly that actuates the breaker mechanism; a magnetic armature assembly comprising an armature plate configured to move responsive to a current in the at least one conductor; and an elongate link member coupling the armature plate to the trip bar and having at least one flanged portion retained in at least one keyed slot in at least one of the armature plate and the trip bar assembly, wherein the link member has a narrowed portion sized to allow passage of the link member through a narrowed portion of the at least one keyed slot and into an enlarged portion of the at least one keyed slot to engage the link member in the at least one keyed slot. 2. The circuit breaker of claim 1 : wherein the at least one keyed slot comprises a first keyed slot in the armature plate; wherein the at least one flanged portion comprises a first flanged portion retained in the first keyed slot; wherein the trip bar assembly comprises a trip bar and a trip bar bracket attached to the trip bar; wherein the at least one keyed slot comprises a second keyed slot in the trip bar bracket; and wherein the at least one flanged portion comprises a second flanged portion retained in the second keyed slot. 3. The circuit breaker of claim 1 , wherein the elongate link member comprises a rod and wherein the at least one flanged portion is positioned proximate an end of rod. 4. The circuit breaker of claim 3 , wherein the at least one flanged portion comprises a first flanged portion proximate a first end of the rod and a second flanged portion proximate a second end of the rod. 5. The circuit breaker of claim 4 , wherein the first flanged portion is retained in a first keyed slot in the armature plate. 6. The circuit breaker of claim 5 , wherein the trip bar assembly comprises a trip bar and a trip bar bracket attached to the trip bar, and wherein the second flanged portion is retained in a second keyed slot in the trip bar bracket. 7. The circuit breaker of claim 6 , wherein the rod has narrowed portion sized to allow passage of the link member through narrowed portions of the first and second keyed slots. 8. A circuit breaker comprising: a frame; at least one conductor supported by the frame; a breaker mechanism supported by the frame and comprising a trip bar and a trip bar bracket attached to the trip bar; a magnetic armature assembly supported by the frame and comprising an armature plate configured to move responsive to a current in the at least one conductor; and a rod having a first flanged portion positioned at a first end thereof and retained in a first keyed slot in the armature plate and a second flanged portion positioned at a second end of the rod and retained in a second keyed slot in the trip bar bracket, wherein the rod has narrowed portion configured to allow passage of the rod through narrowed portions and into enlarged portions of the first and second keyed slots. 9. The circuit breaker of claim 8 , wherein a relationship of the narrowed portion to the first and second flanged portions inhibits disengagement of the first and second flanged portions from the first and second keyed slots when the trip bar bracket is attached to the trip bar. 10. The circuit breaker of claim 8 , wherein the trip bar bracket is attached to the trip bar using a releasable fastener. 11. A method of fabricating a circuit breaker comprising: engaging a flanged portion of an elongate link member in a keyed slot in an armature plate of an armature mechanism of the circuit breaker, including passing a narrowed portion of the elongate link member through a narrowed section and into an enlarged section of the keyed slot to engage the link member in the keyed slot; and attaching the elongate member to a trip bar of the circuit breaker to thereby mechanically couple the armature plate and the trip bar. 12. The method of claim 11 : wherein engaging the flanged portion of the elongate link member in the keyed slot in the armature plate comprises engaging a first flanged portion of the elongate link member in the keyed slot in the armature plate; and wherein attaching the elongate link member to the trip bar comprises: engaging a second flanged portion of the elongate link member in a keyed slot in a trip bar bracket; and attaching the trip bar bracket to the trip bar. 13. The method of claim 12 : wherein engaging the second flanged portion of the elongate link member in the keyed slot in the trip bar bracket comprises passing the narrowed portion of the elongate link member through a narrowed section and into an enlarged section of the keyed slot in the trip bar bracket. 14. The method of claim 13 , wherein the narrowed portion of the link member is positioned between the first and second flanged portions. 15. The method of claim 13 , wherein the elongate link member comprises a rod, and wherein the first and second flanged portions are positioned at first and second ends of the rod. 16. The method of claim 12 , wherein attaching the trip bar bracket to the trip bar comprises attaching the trip bar bracket to the trip bar using a releasable fastener.