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A subassembly for a fuel cell stack includes a fuel cell plate and a datum hole formed in the fuel cell plate for alignment of the fuel cell plate during assembly of the fuel cell stack. The subassembly also includes a datum insert disposed adjacent the datum hole of the fuel cell plate. The datum i

A subassembly for a fuel cell stack includes a fuel cell plate and a datum hole formed in the fuel cell plate for alignment of the fuel cell plate during assembly of the fuel cell stack. The subassembly also includes a datum insert disposed adjacent the datum hole of the fuel cell plate. The datum insert is configured to militate against a bending of the fuel cell plate at the datum hole during the assembly of the fuel cell stack.

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1. A subassembly for a fuel cell stack, comprising: a conductive fuel cell plate including a datum hole formed in the fuel cell plate for alignment of the fuel cell plate during an assembly of the fuel cell stack, wherein the fuel cell plate includes a first unipolar plate bonded to a second unipola

1. A subassembly for a fuel cell stack, comprising: a conductive fuel cell plate including a datum hole formed in the fuel cell plate for alignment of the fuel cell plate during an assembly of the fuel cell stack, wherein the fuel cell plate includes a first unipolar plate bonded to a second unipolar plate, the datum hole defined by edges of the first unipolar plate and the second unipolar plate; anda non-conductive datum insert disposed within the datum hole of the fuel cell plate and configured to militate against a bending of the fuel cell plate around the datum hole during the assembly of the fuel cell stack, wherein the datum insert includes an opening configured to receive a datum pin for alignment of the fuel cell plate during an assembly of the fuel cell stack,wherein a first portion of the datum insert is disposed between the first unipolar plate and the second unipolar plate at the datum hole, a second portion of the datum insert extends inwardly toward the datum hole and away from the edges of the first unipolar plate and the second unipolar plate, and the opening is defined by at least one edge of the second portion of the datum insert that is spaced apart from the edges of the first unipolar plate and the second unipolar plate. 2. The subassembly of claim 1, wherein the bonding of the first unipolar plate and the second unipolar plate includes at least one stitch weld disposed adjacent the datum hole. 3. The subassembly of claim 1, further comprising at least one retainer disposed through the fuel cell plate and the datum insert configured to secure the datum insert in place. 4. The subassembly of claim 3, wherein the retainer includes one of a weld, an adhesive, a stake, and a rivet. 5. The subassembly of claim 1, wherein the datum insert is coupled to a subgasket. 6. The subassembly of claim 5, wherein the datum insert is overmolded on the subgasket. 7. The subassembly of claim 1, wherein the datum insert includes a stepped portion abutting at least one of the edges of one of the first unipolar plate and the second unipolar plate. 8. The subassembly of claim 1, wherein the datum insert is disposed between the first and second unipolar plates at the datum hole, the datum insert having a first side with a protrusion and a second side with a recess. 9. The subassembly of claim 8, wherein the protrusion of the datum insert is configured to be received by the recess of an adjacent datum insert. 10. The subassembly of claim 9, wherein the second portion of the datum insert includes a stepped portion abutting at least one of the edges of one of the first unipolar plate and the second unipolar plate. 11. The subassembly of claim 10, wherein the protrusion of the datum insert is disposed through a subgasket disposed adjacent the fuel cell plate. 12. The subassembly of claim 1, wherein the bonding of the first unipolar plate and the second unipolar plate includes at least one stitch weld disposed adjacent the datum hole, the stitch weld disposed underneath the datum insert. 13. The subassembly of claim 1, wherein the fuel cell plate is formed from a metal. 14. The subassembly of claim 1, wherein the datum insert is formed from a non-conductive material having a mechanical strength sufficient to not deform upon contact with the datum pin during assembly of the fuel cell stack. 15. The subassembly of claim 1, wherein the datum insert is formed from one of a ceramic material and a plastic material. 16. The subassembly of claim 1, wherein the datum insert is disposed in a pocket defined by the first unipolar plate and the second unipolar plate. 17. The subassembly of claim 1, wherein the opening of the datum insert has a shape substantially corresponding to a cross-sectional shape of the datum pin. 18. The subassembly of claim 1, wherein the datum insert is configured to facilitate sliding of the datum pin along the at least one edge of the opening of the datum insert and to militate against a bending of the datum insert. 19. A subassembly for a fuel cell stack, comprising: a conductive fuel cell plate including a flow field disposed between a pair of headers, the headers including an aperture formed in the fuel cell plate for supplying a reactant to the flow field, and a datum hole formed in the fuel cell plate for alignment of the fuel cell plate during an assembly of the fuel cell stack; anda non-conductive datum insert disposed within the datum hole of the fuel cell plate and configured to militate against a bending of the fuel cell plate around the datum hole during the assembly of the fuel cell stack,wherein the datum insert includes an opening configured to receive a datum pin during the assembly of the fuel cell stack,wherein the fuel cell plate includes a first unipolar plate bonded to a second unipolar plate, the datum insert disposed between the first and second unipolar plates at the datum hole, the datum hole defined by edges of the first unipolar plate and the second unipolar plate,wherein the bonding of the first unipolar plate and the second unipolar plate includes at least one stitch weld disposed adjacent to the datum hole, and at least one retainer disposed through the fuel cell plate and the datum insert configured to secure the datum insert in place, wherein the retainer includes a stake, andwherein a first portion of the datum insert is disposed between the first unipolar plate and the second unipolar plate at the datum hole, a second portion of the datum insert extends inwardly toward the datum hole and away from the edges of the first unipolar plate and the second unipolar plate, and the opening is defined by at least one edge of the second portion of the datum insert that is spaced apart from the edges of the first unipolar plate and the second unipolar plate. 20. A subassembly for a fuel cell stack, comprising: a conductive fuel cell plate including a flow field disposed between a pair of headers, the headers including an aperture formed in the fuel cell plate for supplying a reactant to the flow field, and a datum hole formed in the fuel cell plate for alignment of the fuel cell plate during an assembly of the fuel cell stack;a subgasket disposed adjacent to the fuel cell plate and having a hole aligned with the datum hole of the fuel cell plate; anda non-conductive datum insert disposed within the datum hole of the fuel cell plate and configured to militate against a bending of the fuel cell plate around the datum hole during the assembly of the fuel cell stack,wherein the datum insert includes an opening configured to receive a datum pin during the assembly of the fuel cell stack,wherein the fuel cell plate includes a first unipolar plate bonded to a second unipolar plate, the datum insert disposed between the first and second unipolar plates at the datum hole, the datum hole defined by edges of the first unipolar plate and the second unipolar plate,wherein the datum insert includes a stepped portion abutting at least one of the edges of one of the first unipolar plate and the second unipolar plate,wherein the bonding of the first unipolar plate and the second unipolar plate includes at least one stitch weld disposed adjacent to the datum hole, and at least one retainer disposed through the fuel cell plate and the datum insert configured to secure the datum insert in place, wherein the retainer includes a stake, andwherein a first portion of the datum insert is disposed between the first unipolar plate and the second unipolar plate at the datum hole, a second portion of the datum insert extends inwardly toward the datum hole and away from the edges of the first unipolar plate and the second unipolar plate, the second portion includes the stepped portion, and the opening is defined by at least one edge of the second portion of the datum insert that is spaced apart from the edges of the first unipolar plate and the second unipolar plate.