Abstract: A battery cell connector for use with an external device. In an aspect, the battery cell connector comprises a body with at least three layers, configured to simultaneously provide improved weldability and conductivity. In the same aspect, the battery cell connector comprises a terminal connected to the terminal arm of the body of the cell connector and a voltage transmitting component connected to said terminal, wherein the voltage transmitting component is configured to connect to an external device on the opposing end.
Abstract: A multiple layer metallic laminate having more desirable electrical properties as compared to known embodiments includes multiple layers of metallic sheets clad together. The multiple layer laminate composite includes at least a first metallic layer having good soldering properties, such as commercially available nickel or nickel alloys, a second metallic layer having good resistance welding properties, such as commercial available steels or stainless steels, a third metallic layer having low electrical resistivity properties, such as commercially available copper and copper alloys, a fourth metallic layer have good resistance welding properties, such as commercially available steels or stainless steels, and a fifth metallic layer having good soldering properties, such as commercially available nickel or nickel alloys.
Abstract: A clad metal composite produced according to a method for edge-to-edge cladding of two or more different metals (such as aluminum and copper). The metals are joined next to each other to form an edge-to-edge or side-by-side clad bimetal. In one embodiment, nine metal strips are used to create the desired clad metal composite. The design includes strips of metal that have industry standard cut edges (such as, slit-cut edges). In one embodiment, the clad metal composite includes multiple layers of metals positioned edge-to-edge. In one embodiment, the method of making an edge-to-edge composite includes providing multiple layers of metal made of separate strips, aligning the strips in the multiple layers with one another so that edges of the strips of the multiple layers do not align with one another, and then bonding the layers and strips to one another.