Method and apparatus for guarding and compounding material with two roll mill

Having thus described various embodiments of the invention, what is claimed as new and desired to be protected by Letters Patent includes the following: 1. A tool for feeding material into a mill having a roller and forming a nip gap, the tool comprising: a baseplate configured to be positioned on the mill over the roller, the baseplate forming a slot; a guide plate configured to be positioned in the slot of the baseplate near the nip gap, wherein the guide plate forms a chute for feeding the material into the nip gap; and a ram configured to be inserted into the chute to urge the material into the nip gap, wherein the guide plate includes guide rollers configured to reduce friction of the material and the ram as the material and at least a portion of the ram pass through the chute. 2. The tool of claim 1 , the guide plate being configured to vertically align the ram in the chute to prevent lateral movement and rotation of the ram. 3. The tool of claim 1 , wherein the guide plate is removable from the baseplate. 4. The tool of claim 1 , the guide plate being configured to be attached to the baseplate via a plurality of fasteners. 5. The tool of claim 1 , the ram including a stop configured to engage the guide plate to prevent the ram from being inserted into the chute beyond a predetermined limit. 6. The tool of claim 1 , the ram including a convex leading surface configured to press against the material. 7. The tool of claim 1 , the ram further comprising a handle configured to apply a downward force to the ram. 8. The tool of claim 1 , the baseplate including fastener holes configured for mounting the baseplate to the mill via a plurality of fasteners. 9. The tool of claim 1 , further comprising a plurality of spacers configured to be positioned between the baseplate and the mill for spacing the guide plate from the nip gap. 10. A tool for feeding material into a mill having a roller and forming a nip gap, the tool comprising: a baseplate configured to be positioned on the mill over the roller, the baseplate forming a slot; a guide plate configured to be positioned in the slot of the baseplate near the nip gap, wherein the guide plate forms a chute for feeding the material into the nip gap; a ram configured to be inserted into the chute to urge the material into the nip gap; and a linkage system configured to urge the ram into the chute, wherein the linkage system includes vertical rails configured to vertically align the ram in the chute to prevent lateral movement and rotation of the ram, and wherein the linkage system includes a crossbar extending between the vertical rails and a spring connected between the crossbar and the ram such that the spring is configured to bias the ram toward a predetermined position. 11. The tool of claim 10 , the linkage system including a lever arm configured to be urged in a downward arc to draw the ram downward. 12. The tool of claim 10 , the ram including collars aligned on the vertical rails, the linkage system being configured to prevent the ram from being inserted into the chute beyond a predetermined limit. 13. The tool of claim 10 , the guide plate including guide rollers configured to reduce friction of the material and the ram as the material and at least a portion of the ram pass through the chute. 14. The tool of claim 10 , wherein the guide plate is removable from the baseplate. 15. The tool of claim 10 , the ram including a convex leading surface configured to press against the material. 16. A tool for feeding material into a mill having a roller and forming a nip gap, the tool comprising: a baseplate configured to be positioned on the mill over the roller, the baseplate forming a slot; a plurality of spacers configured to be positioned between the baseplate and the mill; a guide plate configured to be positioned in the slot of the baseplate near the nip gap, the guide plate forming a chute for feeding the material into the nip gap and including a plurality of guide rollers configured to reduce friction of the material as the material passes through the chute; and a ram configured to be inserted into the chute to urge the material into the nip gap, the ram including: a handle configured to apply a downward force to the ram; a stop configured to engage the guide plate to prevent the ram from being inserted into the chute beyond a predetermined limit; and a convex leading surface configured to press against the material.