Plastic coated composite building boards and method of making same

What is claimed is: 1. A composite structural panel comprising: an exterior gypsum layer; a mat embedded within the exterior gypsum layer, the mat consisting essentially of fibers that are bound together by a hot melt thermoplastic binder and are not bound together by any thermoset binder, the mat having an exterior surface and an interior surface, wherein the mat is porous and the exterior gypsum layer penetrates through pores of the mat from the interior surface to the exterior surface thereof, and forms an exterior boundary sublayer substantially covering the exterior surface of the mat and an interior boundary sublayer substantially covering the interior surface of the mat; an interior gypsum layer formed in contact with the interior boundary sublayer of the exterior gypsum layer, wherein the interior gypsum layer has a lower density than the exterior gypsum slurry layer. 2. The composite structural panel as described in claim 1 wherein the fibers are organic. 3. The composite structural panel as described in claim 1 wherein the fibers are inorganic. 4. The composite structural panel as described in claim 1 wherein the fibers are continuous. 5. The composite structural panel as described in claim 1 wherein the fibers are non continuous. 6. The composite structural panel as described in claim 1 wherein the hot melt thermoplastic is applied in a thickness of between 0.1 to 10 mils. 7. The composite structural panel as described in claim 1 wherein the hot melt thermoplastic is formed from ethylene vinyl acetate (EVA). 8. The composite structural panel as described in claim 1 wherein the hot melt thermoplastic is formed from ethylene methyl acrylonitrile (EAA). 9. A composite structural panel as described in claim 1 , wherein the composite structural panel further comprises a surface layer of hot melt thermoplastic overlying the exterior boundary sublayer; a silane coupling agent that facilitates bonding between the individual fibers, the individual fibers and the hot melt thermoplastic binder, the individual fibers and the exterior gypsum slurry layer slurry layers, and the surface layer of hot melt thermoplastic and the exterior boundary sublayer. 10. The composite structural panel according to claim 1 wherein the interior gypsum layer further includes a polymeric additive, and the exterior gypsum layer further includes an additive that bonds with the polymeric additive of the interior gypsum layer. 11. The composite structural panel according to claim 1 , wherein the exterior gypsum layer further includes an additive that bonds with the hot melt thermoplastic binder of the mat. 12. The composite structural panel according to claim 1 , wherein the exterior boundary layer of the exterior gypsum layer has a thickness of between approximately 0.01 to 2.0 mm. 13. The composite structural panel according to claim 1 , wherein the fibers are preconditioned with silane. 14. The composite structural panel according to claim 1 , further comprising a surface layer of hot melt thermoplastic overlying the exterior boundary sublayer of the exterior gypsum layer. 15. The composite structural panel according to claim 14 , wherein the hot melt thermoplastic of the surface layer has a melting point temperature in the range of approximately 100° to 500° F. 16. The composite structural panel according to claim 15 , wherein the surface layer of hot melt thermoplastic has a thickness the range of 0.01 to 500 mils. 17. A composite structural panel comprising: an exterior gypsum layer; a mat embedded within the exterior gypsum layer, the mat consisting essentially of fibers that are bound together by a polymeric binder that consists essentially of a hot melt thermoplastic, the mat having an exterior surface and an interior surface, wherein the mat is porous and the exterior gypsum layer penetrates through pores of the mat from the interior surface to the exterior surface thereof, and forms an exterior boundary sublayer substantially covering the exterior surface of the mat and an interior boundary sublayer substantially covering the interior surface of the mat; an interior gypsum layer formed in contact with the interior boundary sublayer of the exterior gypsum layer, wherein the interior gypsum layer has a lower density than the exterior gypsum slurry layer. 18. The composite structural panel according to claim 17 , wherein the fibers are preconditioned with silane. 19. A composite structural panel comprising: an exterior gypsum layer; a mat embedded within the exterior gypsum layer, the mat consisting essentially of fibers that are bound together entirely by a hot melt thermoplastic binder, the mat having an exterior surface and an interior surface, wherein the mat is porous and the exterior gypsum layer penetrates through pores of the mat from the interior surface to the exterior surface thereof, and forms an exterior boundary sublayer substantially covering the exterior surface of the mat and an interior boundary sublayer substantially covering the interior surface of the mat; an interior gypsum layer formed in contact with the interior boundary sublayer of the exterior gypsum layer, wherein the interior gypsum layer has a lower density than the exterior gypsum slurry layer. 20. The composite structural panel according to claim 19 , wherein the fibers are preconditioned with silane.