Insulation product with inward curling closure flap

The invention claimed is: 1. A method of manufacturing a laminate, the method comprising: providing an inner layer comprising a foil or metallized polymeric sheet material, the inner layer comprising: a length, a width, a first face, and a second face, wherein the length and width form an area that define the first face and the second face; positioning an outer layer such that the outer layer is coextensive with the second face, wherein the outer layer comprises a polymeric sheet material, and wherein the outer layer comprises a closure flap; positioning an intermediate layer between the inner layer and the outer layer, wherein the intermediate layer provides reinforcement for the laminate; compressing the inner layer, the intermediate layer, and the outer layer together using a plurality of rollers to form a single multilayered laminate; applying a first tension to the inner layer and the intermediate layer as the inner layer and the intermediate layer enter an opposing pair of the plurality of rollers and applying a second tension to the outer layer that is less than the first tension as the outer layer enters the opposing pair of the plurality of rollers; and maintaining the first tension and the second tension during lamination of the inner layer, the intermediate layer, and the outer layer. 2. The method of manufacturing a laminate of claim 1 , further comprising: reducing a convex configuration of the closure flap, or configuring the closure flap to include a concave configuration. 3. The method of manufacturing a laminate of claim 1 , further comprising: heat treating the laminate to relax polymers of the polymeric sheet material and thereby reduce internal stresses; and cooling the polymeric sheet material so that the polymers recrystallize with the closure flap curled radially inward. 4. The method of manufacturing a laminate of claim 1 , further comprising: securing the closure flap in a closed position; heat treating the laminate to soften the polymeric sheet material; and cooling the polymeric sheet material so that the polymeric sheet material hardens with the closure flap curled toward the closed position. 5. The method of manufacturing a laminate of claim 1 , further comprising: positioning at least one strap circumferentially around the laminate and a tubular core prior to heat treating the laminate, wherein the at least one strap secures the closure flap in the closed position. 6. The method of manufacturing a laminate of claim 1 , further comprising: applying a pressure sensitive adhesive to the closure flap. 7. The method of manufacturing a laminate of claim 1 , further comprising: positioning a tubular core directly adjacent the first face of the inner layer, wherein the tubular core comprises: a length and a longitudinal axis; a substantially cylindrical outer surface, the substantially cylindrical outer surface comprising a surface area that is roughly equivalent to the area of the first face; a substantially cylindrical inner surface; and a wall extending between the cylindrical outer surface and the cylindrical inner surface; the wall comprising: a radially extending thickness; and a slit extending from the cylindrical outer surface to the cylindrical inner surface and extending parallel to the longitudinal axis of the tubular core for the length of the tubular core; and bonding, via an adhesive material, the tubular core with the first face of the inner layer, wherein the laminate and tubular core are flexible so as to be opened, placed about a pipe, and closed without degrading the laminate. 8. The method of manufacturing a laminate of claim 1 , further comprising: applying at least one adhesive between one or more of the inner layer, the intermediate layer, and the outer layer. 9. The method of manufacturing a laminate of claim 8 , wherein: the at least one adhesive comprises a hot melt adhesive. 10. The method of producing a laminate as in claim 1 , further comprising: applying one or more additives to the laminate, the one or more additives comprising one or more of a flame retardant, a fungi growth inhibiting agent, and a charge dissipater. 11. The method of manufacturing a laminate of claim 1 , wherein: the foil or metallized polymeric sheet material comprises aluminum foil or metallized polyethylene terephthalate (MPET). 12. The method of manufacturing a laminate of claim 1 , wherein: the intermediate layer comprises a scrim. 13. The method of manufacturing a laminate of claim 1 , further comprising: positioning an additional intermediate layer between the inner layer and the outer layer, wherein the intermediate layer comprises a scrim and the additional intermediate layer comprises a porous media sheet material. 14. The method of manufacturing a laminate of claim 1 , wherein: applying the first tension and the second tension causes the closure flap to curl toward a closed position. 15. A method of manufacturing a laminate, the method comprising: providing an inner layer comprising a foil or metallized polymeric sheet material, the inner layer comprising: a length, a width, a first face, and a second face, wherein the length and width form an area that define the first face and the second face; positioning an outer layer such that the outer layer is coextensive with the second face, wherein the outer layer comprises a polymeric sheet material, and wherein the outer layer comprises a closure flap; positioning an intermediate layer between the inner layer and the outer layer, wherein the intermediate layer provides reinforcement for the laminate; compressing the inner layer, the intermediate layer, and the outer layer together using a plurality of rollers to form a single multilayered laminate; and applying a first tension to the inner layer and the intermediate layer as the inner layer and the intermediate layer enter an opposing pair of the plurality of rollers and applying a second tension to the outer layer as the outer layer enters the opposing pair of the plurality of rollers, wherein the first tension is greater than the second tension, thereby causing the closure flap to curl toward a closed position. 16. The method of manufacturing a laminate of claim 15 , further comprising: heat treating the laminate to relax polymers of the polymeric sheet material and thereby reduce internal stresses; and cooling the polymeric sheet material so that the polymers recrystallize with the closure flap curled radially inward. 17. The method of manufacturing a laminate of claim 15 , further comprising: securing the closure flap in a closed position; heat treating the laminate to soften the polymeric sheet material; and cooling the polymeric sheet material so that the polymeric sheet material hardens with the closure flap curled toward the closed position. 18. The method of manufacturing a laminate of claim 15 , further comprising: positioning at least one strap circumferentially around the laminate and a tubular core prior to heat treating the laminate, wherein the at least one strap secures the closure flap in the closed position. 19. The method of manufacturing a laminate of claim 15 , further comprising: applying a pressure sensitive adhesive to the closure flap. 20. The method of manufacturing a laminate of claim 15 , further comprising: positioning a tubular core directly adjacent the first face of the inner layer, wherein the tubular core comprises: a length and a longitudinal axis; a substant