Expansion joint seal with surface load transfer and intumescent

I claim: 1. An expansion joint system, comprising: an elongated core, the elongated core composed of a resiliently compressible foam, the elongated core is coated with an elastomer, the elongated core having an elongated core longitudinal axis, the elongated core having an elongated core longitudinal length, the elongated core having an elongated core top, the elongated core having an elongated core bottom, the elongated core having an elongated core height intermediate the elongated core top and the elongated core bottom, the elongated core having an elongated core first side, the elongated core first side being generally perpendicular to the elongated core top, the elongated core having an elongated core second side, the elongated core second side being generally perpendicular to the elongated core top; and three longitudinal load-transfer members, each of the three longitudinal load-transfer members being incompressible, each of the three longitudinal load-transfer members having a longitudinal load-transfer member axis, each of the elongated core longitudinal axes and the longitudinal load-transfer member axes being parallel, each of the three longitudinal load-transfer members having a longitudinal load-transfer member length, each of the three longitudinal load-transfer members bonded to the elongated foam core at the elongated core top, and each of the three longitudinal load-transfer members spaced apart between the elongated core first side and the elongated core second side. 2. The expansion joint system of claim 1 , wherein a first of the three longitudinal load-transfer members and a third of the three longitudinal load-transfer members are equivalently distant from a second of the three longitudinal load-transfer members. 3. The expansion joint system of claim 1 , wherein the at least one longitudinal load-transfer member is proximate a middlemost portion of the elongated foam core between the elongated core first side and the elongated core second side. 4. The expansion joint system of claim 1 , further comprising applying an intumescent elastomeric coating to at least one of the elongated core top and the elongated core bottom. 5. The expansion joint system of claim 1 , further comprising: three secondary longitudinal load-transfer members, each of the three secondary longitudinal load-transfer members being incompressible, each of the three secondary longitudinal load-transfer members having a secondary longitudinal load-transfer member axis, each of the elongated core longitudinal axes and the secondary longitudinal load-transfer member axes being parallel, each of the three secondary longitudinal load-transfer members bonded to the elongated foam core at the elongated core bottom, and each of the three secondary longitudinal load-transfer members spaced apart between the elongated core first side and the elongated core second side. 6. The expansion joint system of claim 5 wherein each of the three secondary longitudinal load-transfer members has a secondary longitudinal load-transfer member length equivalent to an elongated core longitudinal length of the elongated core. 7. The expansion joint system of claim 1 , further comprising: a graphite member positioned on the elongated core bottom. 8. The expansion joint system of claim 1 further comprising: an elongated beveled surface adjacent the elongated core bottom and the elongated core first side. 9. The expansion joint system of claim 1 further comprising: an elongated core channel in the elongated core at the elongated core bottom. 10. The expansion joint system of claim 9 further comprising: an intumescent within the elongated core channel. 11. The expansion joint system of claim 1 wherein the elongated core has an elongated core longitudinal length and each of the three longitudinal load-transfer members has a longitudinal load-transfer member length equivalent to the elongated core longitudinal length. 12. The expansion joint system of claim 1 wherein at least one of the longitudinal load-transfer members is constructed of an intumescent material.