Ultrasonic edge sealing of sheet molding compound carrier film

What is claimed is: 1. A method for making a multi-layer carrier film for a sheet molding compound, comprising the steps of: providing at least a first layer of material; providing at least a second layer of material; providing a weld anvil device having an anvil portion that is rotatable; providing a weld horn device having a horn portion located adjacent to said anvil portion, where said weld horn device provides a predetermined ultrasonic frequency; placing an edge area of said first layer and said second layer of materials between said horn portion and said anvil portion; applying said ultrasonic frequency while moving said first and second layers in a linear direction to vibratingly press said edge areas of said first layer and said second layer together forming a seal along at least one edge of said carrier film creating a dam to stop the flow of a sheet molding compound and to ensure a homogeneous mixture of said sheet molding compound. 2. The method for making a multi-layer carrier film for a sheet molding compound of claim 1 , wherein said seal is a non-continuous weld suitably configured to allow air to escape. 3. The method for making a multi-layer carrier film for a sheet molding compound of claim 2 , wherein said non-continuous weld is formed of a plurality of rows of stitches. 4. The method for making a multi-layer carrier film for a sheet molding compound of claim 1 , further comprising providing said sheet molding compound between said first and second layers of material, where said sheet molding compound comprises at least one resin and at least one reinforcing agent. 5. The method for making a multi-layer carrier film for a sheet molding compound of claim 4 , wherein said at least one reinforcing agent is a glass filler. 6. The method for making a multi-layer carrier film for a sheet molding compound of claim 1 , wherein said first layer and second layers of material are nylon film. 7. The method for making a multi-layer carrier film for a sheet molding compound of claim 1 , wherein the distance between said horn device and anvil device is about 0.0015 inches. 8. The method for making a multi-layer carrier film for a sheet molding compound of claim 1 , wherein said weld anvil device further comprises, a mounting plate portion; a first shaft coupled to said anvil portion and rotatably coupled to a first pair of mounting brackets, said mounting brackets connected to said mounting plate portion; at least one drive wheel; a second shaft coupled to said drive wheel and rotatably coupled to a second pair of mounting brackets, said second pair of mounting brackets connected to said mounting plate portion; wherein as said horn portion supplies sonic motion, said drive wheel and anvil portion rotate to move the film linearly over the horn portion as said first and second layers of material of the carrier film are sonically welded together to create said seal. 9. The method for making a multi-layer carrier film for a sheet molding compound of claim 1 , wherein said weld anvil device further comprises a turnbuckle device mounted near said anvil portion, said turnbuckle device having a body portion that is internally threaded and receives at least one threaded portion for adjusting the height of said anvil portion with respect to the terminal end of said horn portion. 10. The method for making a multi-layer carrier film for a sheet molding compound of claim 1 , further comprising providing a backing plate operably hinged to said weld anvil device, wherein said hinged backing plate allows said weld anvil device to be selectively rotated between an operating position for sealing and a resting position when sealing is not desired. 11. A method for making a sheet molding compound for manufacturing a component, comprising the steps of: providing a first layer of material made of nylon film; providing a second layer of material made of nylon film; providing a weld anvil device having an anvil portion that is rotatable; providing a weld horn device having a horn portion located a predetermined distance from said anvil portion, where said weld horn device provides a predetermined ultrasonic frequency; placing an edge of said first layer and said second layer between said horn portion and said anvil portion; applying said ultrasonic frequency while moving said first and second layers together in a linear direction to vibratingly press said edge areas of said first layer and said second layer together forming a seal along said carrier film, wherein said seal is a non-continuous weld; inserting a moldable material between said first and second layers of material, wherein said seal allows moldable material flow to the edges of the sheet while providing a homogeneous mixture of reinforcing agent and resin and allowing air to escape; and curing said moldable material between said first and second layers of material forming said sheet molding compound. 12. The method of claim 11 , wherein said non-continuous weld is formed of a plurality of rows of stitches. 13. The method of claim 11 , wherein said reinforcing agent is a glass filler. 14. The method of claim 11 , wherein said first layer and second layers of material are nylon film. 15. The method of claim 11 , wherein said weld anvil device further comprises, a mounting plate portion; a turnbuckle device connected to the mounting plate portion, said turnbuckle device having a body portion that is internally threaded and receives at least one threaded portion for adjusting the height of said anvil portion with respect to the terminal end of said horn portion; a first shaft coupled to said anvil portion and rotatably coupled to a first pair of mounting brackets, said mounting brackets connected to said mounting plate portion; at least one drive wheel; a second shaft coupled to said drive wheel and rotatably coupled to a second pair of mounting brackets, said second pair of mounting brackets connected to said mounting plate portion; wherein as said horn portion supplies sonic motion, said drive wheel and anvil portion rotate to move the film linearly over the horn portion as said first and second layers of material of the carrier film are sonically welded together to create said seal.