Composite engine oil pan and method of making

What is claimed is: 1. A method of forming a composite oil pan for an engine of a work vehicle, the method comprising: forming a sheet of metal into a first pan, the first pan having a first bottom wall and first peripheral walls extending from edges of the first bottom wall to define a sump for containing engine oil, the first peripheral walls terminating in a first peripheral flange extending outwardly; and open-molding a fiber-reinforced polymer resin onto the first pan to form a second pan having a second bottom wall in abutting relation with the first bottom wall and having second peripheral walls extending from edges of the second bottom wall and in abutting relation with the first peripheral walls, the second peripheral walls terminating in a second peripheral flange in abutting relation with the first peripheral flange; wherein the first pan defines a thin wall metal structure in which the second pan is thicker than the first pan by a factor of three or more, the first pan having an inner surface extending across the first bottom wall, the first peripheral walls and the peripheral first flange, and wherein the second pan structurally reinforces the first pan without abutting the inner surface. 2. The method of claim 1 , wherein the fiber-reinforced polymer resin is oleophilic. 3. The method of claim 1 , wherein the open-molding step is a hand lay-up process including the steps of: applying a fluid polymeric resin onto the first pan; placing a reinforcement fiber on the fluid polymeric resin; and pressing both the fluid polymeric resin and the reinforcement fiber against an outer surface of the first pan. 4. The method of claim 1 , wherein the open-molding step is a spray lay-up process including the steps of: spraying, using a spray gun, a fluid polymeric resin onto the first pan; spraying, using the spray gun, a reinforcement fiber on the fluid polymeric resin; and pressing both the fluid polymeric resin and the reinforcement fiber against an outer surface of the first pan. 5. The method of claim 1 , wherein the thin wall metal structure of the first pan has an outer surface opposite the inner surface, wherein the second pan abuts the outer surface. 6. The method of claim 1 , wherein the inner surface of the first pan defines a contiguous oil sump with a drain opening in the first bottom wall. 7. The method of claim 1 , further comprising: adding, after the forming step, a plurality of openings to the first and second peripheral flanges. 8. The method of claim 7 , further comprising: installing, after the adding step, a compression limiter in one or more of the plurality of openings in the first and second peripheral flanges, the compression limiter extending through both the first and second peripheral flanges. 9. The method of claim 8 , wherein the compression limiter is a flanged annulus with a relatively greater compressive strength than the fiber-reinforced polymer resin. 10. The method of claim 1 , wherein the step of forming the sheet of metal includes forming an outer lip at a distal end of the first peripheral flange, the outer lip extending downward toward the first bottom wall of the first pan. 11. The method of claim 1 , wherein the second pan is formed directly onto an outer surface of the first pan without any intervening structure or bonding agent such that the open-molding step joins the second pan to the first pan. 12. The method of claim 1 , wherein the forming step includes pressing the sheet of metal against a mold; the method further comprising removing the composite oil pan from the mold after the open-molding step. 13. A composite engine oil pan, comprising: a first pan formed of a sheet of metal with a first bottom wall and a first plurality of peripheral walls extending generally upwardly from the first bottom wall, the first plurality of peripheral walls including a first front wall, a first rear wall, and first side walls, the first plurality of peripheral walls terminating in a first peripheral flange extending outwardly from a top of one or more of the first front wall, the first rear wall, and the first side walls, the first pan including: an oil sump for containing oil defined by an inner surface extending contiguously along the first bottom wall and the first plurality of peripheral walls and an outer surface opposite the inner surface; and a second pan formed of a fiber-reinforced polymer resin with a second bottom wall and a second plurality of peripheral walls extending generally upwardly from the second bottom wall, the second plurality of peripheral walls including a second front wall, a second rear wall, and second side walls, the second plurality of peripheral walls terminating in a second peripheral flange extending outwardly from a top of one or more of the second front wall, the second rear wall, and the second side walls, the second pan abutting and bonded to the outer surface of the first pan; wherein the second pan is mounted to cover, at least in part, the outer surface of the first pan; wherein the second pan is thicker than the first pan by a factor of three or more to structurally reinforce the first pan without abutting the inner surface of the first pan; wherein the sheet of metal is press-formed about a mold; and wherein the second pan is open-molded directly onto the outer surface of the first pan at the first bottom wall and first peripheral walls and along an underside of the first peripheral flange. 14. The composite engine oil pan of claim 13 , wherein the fiber-reinforced polymer resin is oleophilic. 15. The composite engine oil pan of claim 13 , further comprising: one or more compression limiters extending through both the first and second peripheral flanges for mounting the composite engine oil pan, the one or more compression limiters having a relatively greater compressive strength than the fiber-reinforced polymer resin. 16. The method of claim 1 , wherein the first pan is a foil sheet construction. 17. The composite engine oil pan of claim 13 , wherein the first pan is a foil sheet construction.