Battery grid with varied corrosion resistance

The invention claimed is: 1. A lead-acid battery comprising a plurality of positive battery grid plates each having a frame with a top, a first side, a second side, and a bottom, and a plurality of grid wires interconnected within each of the frames to create interstices therebetween, one or more first segments of one or more of the plurality of the grid wires having a first microstructure with a primary deformation of a first magnitude, one or more second segments of one or more of the plurality of grid wires having a second microstructure, different from the first microstructure, with a secondary deformation of a second magnitude, with the one or more first segments and the one or more second segments being at separate locations, and the one or more first segments having a greater corrosion resistance than the one or more second segments. 2. The lead-acid battery of claim 1 wherein each of the plurality of positive battery grid plates has x number of interstices, each of the interstices being bounded by continuous lengths of grid wires and wherein there are less than x number of interstices after anticipated growth of a respective positive battery grid plate. 3. The lead-acid battery of claim 1 wherein the one or more second segments are frangible and located to relieve stresses resulting from anticipated growth of any one of the plurality of positive battery grid plates. 4. The lead-acid battery of claim 1 wherein the secondary deformation of the second magnitude is greater than the primary deformation of the first magnitude. 5. The lead-acid battery of claim 1 wherein at least one of the one or more first segments and the one or more second segments of the plurality of grid wires is more susceptible to corrosion than a remainder of the plurality of grid wires. 6. The lead-acid battery of claim 1 wherein at least one of the one or more first segments and the one or more second segments are positioned proximate to the interstices. 7. The lead-acid battery of claim 1 , wherein the secondary deformation is selected from the group consisting of laser melting, heat treatment, perforation, severe plastic deformation, coining, skew rolling, particle bombardment, water jet machining, vacuum forming, and application of high pressure air, arcs, or sputter pumps. 8. A lead-acid battery comprising a plurality of grid plates being alternating positive and negative grid plates arranged to form a stack, the stack fitted within a battery housing, with each of the plurality of grid plates having a frame with a top, a first side, a second side, and a bottom, a plurality of grid wires interconnected within each of the frames to create interstices therebetween, a first segment of one or more of the plurality of grid wires having a primary deformation of a first magnitude, a second segment of the one or more of the plurality of grid wires having a secondary deformation of a second magnitude, with the first segment and the second segment being at separate locations, and the first segment having a first grain structure and a greater corrosion resistance than the second segment having a second grain structure, with the first grain structure being different from the second grain structure. 9. The lead-acid battery of claim 8 wherein each of the plurality of grid plates has x number of interstices, each of the interstices being bounded by continuous lengths of grid wires and wherein there are less than x number of interstices after anticipated growth of a respective grid plate within the battery housing. 10. The lead-acid battery of claim 8 wherein the second segment being frangible and located to relieve stresses resulting from anticipated growth of any one of the plurality of grid plates within the battery housing. 11. The lead-acid battery of claim 8 wherein the secondary deformation of the second magnitude is greater than the primary deformation of the first magnitude. 12. The lead-acid battery of claim 8 wherein at least one of the first segment and the second segment of the plurality of grid wires is more susceptible to corrosion than a remainder of the plurality of grid wires. 13. The lead-acid battery of claim 8 , wherein the secondary deformation is selected from the group consisting of laser melting, heat treatment, perforation, severe plastic deformation, coining, skew rolling, particle bombardment, water jet machining, vacuum forming, and application of high pressure air, arcs, or sputter pumps. 14. A lead-acid battery comprising a plurality of positive battery grid plates each having a frame with a top, a first side, a second side, and a bottom, and a plurality of grid wires interconnected within each of the frames to create interstices therebetween, one or more first locations and one or more second locations of one or more of the plurality of the grid wires having a first microstructure with a primary deformation of a first magnitude, the one or more first locations having a second microstructure, proximate to and different from the first microstructure, with a secondary deformation of a second magnitude, and the one or more second locations having a greater corrosion resistance than the one or more first locations. 15. The lead-acid battery of claim 14 wherein each of the plurality of positive battery grid plates has x number of interstices, each of the interstices being bounded by continuous lengths of grid wires and wherein there are less than x number of interstices after anticipated growth of a respective positive battery grid plate. 16. The lead-acid battery of claim 14 wherein the one or more first locations having the secondary deformation are frangible and located to relieve stresses resulting from anticipated growth of any one of the plurality of positive battery grid plates. 17. The lead-acid battery of claim 14 wherein the secondary deformation of the second magnitude is greater than the primary deformation of the first magnitude. 18. The lead-acid battery of claim 14 wherein the secondary deformation is positioned proximate to the primary deformation at the one or more first locations. 19. The lead-acid battery of claim 14 wherein at least one of the one or more first locations and the one or more second locations is more susceptible to corrosion than a remainder of the plurality of grid wires. 20. The lead-acid battery of claim 14 , wherein the secondary deformation is selected from the group consisting of laser melting, heat treatment, perforation, severe plastic deformation, coining, skew rolling, particle bombardment, water jet machining, vacuum forming, and application of high pressure air, arcs, or sputter pumps.