System and method for the construction of bound fibrous mats

What is claimed is: 1. A method of manufacturing a composite building board including one or more fibrous mats, the method comprising: providing a plurality of spools, each of the plurality of spools including a continuous length of an individual filament, each individual filament being pre-coated with a hot melt thermoplastic; unwinding each of the spools to lay down each individual filament in a randomized pattern upon a forming table, the randomized pattern including a plurality of intersections defined by two or more intersecting filaments; heating the randomized pattern of filaments upon the forming table to a temperature of between approximately 100° F. to 1000° F., the heat melting the hot melt thermoplastic pre-coating upon each length of filament; cooling the randomized pattern of filaments to an ambient temperature, the heating and cooling resulting in the bonding of the filament intersections and the creation of a first fibrous mat; depositing a gypsum slurry upon the fibrous mat, the deposited gypsum slurry forming the core of the composite building board; laying down a second fibrous mat overtop of the gypsum core to form a composite panel; delivering the composite panel to a forming station whereby the composite panel is pressed into a uniform thickness. 2. A method of manufacturing a composite building board including one or more fibrous mats, the method comprising: providing a continuous length of an individual filament; pre-coating the filament with a thermoplastic binder; winding the continuous, pre-coated filament upon a feeder; unwinding the pre-coated filament from the feeder in a randomized pattern upon a forming table, the randomized pattern including a plurality of filament intersections; heating the randomized pattern upon the forming table to melt the thermoplastic binder; cooling the randomized pattern to an ambient temperature, the heating and cooling resulting in the bonding of the filament intersections and the creation of a first fibrous mat; depositing a gypsum slurry upon the fibrous mat, the deposited gypsum slurry forming the core of the composite building board; laying down a second fibrous mat overtop of the gypsum core to form a composite panel. 3. The method as described in claim 2 comprising the further step of adding a silane coupling agent, Y—Si(OR) 3 to the thermoplastic binder prior to coating the filament. 4. The method as described in claim 2 wherein the thermoplastic binder is applied with a thickness of between approximately 0.01 mils to approximately of 50 mils. 5. The method as described in claim 2 wherein the melting point of the thermoplastic binder ranges between 100° F. to 500° F. 6. A system for coating continuous lengths of filament, the system comprising: a plurality of filament feeders, each of the filament feeders supplying a length of filament; a supply of hot melt thermoplastic, the hot melt thermoplastic being heated and liquefied; an application roller having a grooved outer peripheral surface, each of the grooves adapted to receive a length of filament from a filament feeder; a supply roller positioned adjacent the application roller, the supply roller delivering a volume of the liquefied thermoplastic to the outer peripheral surface of the application roller, whereby filaments within the grooves are coated with liquefied thermoplastic; a pinch roller in contact with the outer peripheral surface of the application roller, wherein the pinch roller keeps the lengths of filament within the grooves of the application roller as the filaments are being coated; a metering block, the metering block including a plurality of apertures for receiving the lengths of filament, the metering block further including a run off lip for draining excess volume of liquefied thermoplastic from the lengths of filament.