Flexible electrical connectors for electrolytic cells

What is claimed is: 1. A flexible electrical connector assembly adapted to connect a bus bar of an electrolytic cell to a collector bar of the electrolytic cell, the assembly comprising: an electrical connector including a plurality of conductive metal sheets, the electrical connector defining a current-carrying path and having a collector bar end and a bus bar end, the electrical connector adapted for being joined: at the collector bar end, to the collector bar; and at the bus bar end, to the bus bar; and a bend restrictor for maintaining a change in direction defined by a bend in the current-carrying path between the bus bar end and the collector bar end of the electrical connector; wherein: the electrical connector is configured to implement a change in direction in the current-carrying path defined by the plurality of conductive sheets at a bend defined between the bus bar end and the collector bar end, and the bend restrictor and the electrical connector are cooperatively configured such that: the bend restrictor restricts the bend such that the change in direction defined by the current-carrying path between the bus bar end and the collector bar end is greater than 90 degrees. 2. The flexible electrical connector assembly of claim 1 ; wherein: the bend restrictor includes a strap adapted to maintain the bend. 3. The flexible electrical connector assembly of claim 1 ; wherein: the bend restrictor includes a fastener adapted to maintain the bend. 4. The flexible electrical connector assembly of claim 3 wherein the fastener comprises a bolt. 5. The flexible electrical connector assembly of claim 1 wherein: the electrical connector comprises: a first electrical connector portion adapted for being joined to the collector bar at the collector bar end; and a second electrical connector portion adapted for being joined to the bus bar at the bus bar end; and the bend restrictor includes: at least one intermediate connector block having a first intermediate connector block section connected to the first electrical connector portion, and a second intermediate connector block section attached to the second electrical connector portion, the intermediate connector block providing an intermediate path carrying current between the first electrical connector portion and the second electrical connector portion, wherein the connection between the first electrical connector portion and the first intermediate connector block section and the connection between the second electrical connector portion and the second intermediate connector block section is with effect that the at least one intermediate connector block defines the change in direction of the electrical connector between the bus bar end and the collector bar end that is greater than 90 degrees. 6. The flexible electrical connector assembly of claim 1 , wherein: the electrical connector comprises: a first electrical connector portion adapted for being joined to the collector bar at the collector bar end; and a second electrical connector portion adapted for being joined to the bus bar at the bus bar end; and the bend restrictor includes: an intermediate connector block providing an intermediate path carrying current between the first electrical connector portion and the second electrical connector portion, wherein the intermediate connector block comprises a weld formed between constituent sheets of the first electrical connector portion and the second electrical connector portion, the weld between the first electrical connector portion and the second electrical connector portion defining the change in direction between of the electrical connector between the bus bar end and the collector bar end that is greater than 90 degrees. 7. The flexible electrical connector assembly of claim 1 further comprising a connector block adapted for joining the electrical connector to the bus bar. 8. The flexible electrical connector assembly of claim 7 further comprising a mating component adapted for joining the electrical connector to the collector bar. 9. The flexible electrical connector assembly of claim 1 wherein the plurality of conductive metal sheets define a slit along a current-carrying direction and perpendicular to a direction of sheet layering. 10. A flexible electrical connector assembly suitable for connecting a bus bar of an electrolytic cell to a collector bar of the electrolytic cell, the assembly comprising: a flexible element; a connector for connecting the flexible element to the bus bar, either directly; or through an intermediate element such that a connection between the flexible element and the bus bar is established; wherein: the collector bar includes a pair of edges that extend between the collector bar ends, the pair of edges of the collector bar defining limits of the collector bar; the bus bar includes an inner bus bar surface, the inner bus bar surface defining a fundamental plane which includes the portion of the inner surface of the bus bar that faces the electrolytic cell; and while the flexible electrical connector assembly is viewed vertically from above, the connection between the flexible element and the bus bar, made via the connector, is substantially made at least 5 mm outside of both: (i) the limits of the collector bar; and (ii) an extension of the limits of the collector bare if the extension of the limits of the collector bar extend from the collector bar to the fundamental plane defined by the portion of the inner bus bar surface facing the electrolytic cell. 11. The flexible electrical connector assembly of claim 10 , where the connector comprises of a fastener. 12. The flexible electrical connector assembly of claim 11 , wherein the fastener comprises a bolt. 13. The flexible electrical connector assembly of claim 10 , where the connector comprises of a weld. 14. The flexible electrical connector assembly of claim 10 , where the connection between the flexible element and the bus bar is established substantially above a fundamental plane defining a bottom of the bus bar. 15. The flexible electrical connector assembly of claim 10 , further including a non-bonded electrical contact to the bus bar and/or the collector bar, comprising: a first mating component bonded to the flexible electrical connector, the first mating component adapted to connect the flexible component to the collector bar, or the bus bar, or both, a second matching mating component mounted on, or incorporated into the bus bar or the collector bar; the matching mating components having two or more pairs of mating surfaces across which the two matching mating components are in electrical contact, where the pairs of mating surfaces are neither substantially parallel nor substantially coplanar; and a securing device for securing the matching mating components against one another, such that a normal reaction force is generated on all pairs of mating surfaces. 16. The flexible electrical connector assembly of claim 15 , where the normal reaction force is generated on the mating surfaces through the application of a force applied by a fastener or by frictional forces. 17. The flexible electrical connector of claim 10 , where the flexible element consists of a plurality of conductive metal sheets, and wherein said sheets define a slit along a current-carrying direction and perpendicular to a direction of sheet layering. 18. A flexible electrical connector incorporating more than one flexible elements in at least two parallel electrical paths, where at lea