Separator and feed screw for a grinding machine

The invention claimed is: 1. A grinding machine comprising: a first feed screw configured to rotate within a first head to advance material in a downstream direction; a first center pin rotatable with the first feed screw and a first knife assembly rotatable with the first center pin; a bushing configured to receive the first center pin and rotationally support the first center pin; a first orifice plate arranged on the bushing and configured discharge a first portion of the material through an outer section and a second portion of the material through an inner section; a second head coupled to the first orifice plate; a second feed screw coupled to the first center pin and configured to rotate within the second head, the second feed screw configured to receive the second portion of the material through an ingress end, wherein an axial face of the ingress end is configured to abut an axial face of the bushing such that the bushing acts as a thrust bearing; a second center pin coupled to and configured to rotate with the second feed screw and a second knife assembly coupled to and configured to rotate with the second center pin; a second orifice plate configured to be axially repositioned along the second center pin, the second orifice plate configured to discharge a third portion of material through a second outer section and a fourth portion of material through a second inner section; and a mounting ring coupled to the second head by mating engagement allowing linear adjustment of the mounting ring relative to the second head, wherein the second head includes a stop shoulder and the mounting ring includes a lip, and wherein linear adjustment of the mounting ring is configured to axially position the second orifice plate to abut the stop shoulder and the lip. 2. The grinding machine of claim 1 , further comprising a first biasing member arranged between the first feed screw and the first center pin and a second biasing member positioned on the second center pin and arranged between the second feed screw and the second knife assembly. 3. The grinding machine of claim 1 , further comprising a cone coupled to the second orifice plate, wherein the cone is configured to receive a portion of the second center pin. 4. The grinding machine of claim 1 , wherein the first feed screw includes one or more first flights and the first head includes one or more first flutes, wherein the first flights and the first flutes are configured to interact with the material to move the material in the downstream direction with rotation of the first feed screw. 5. The grinding machine of claim 1 , wherein the second feed screw includes one or more second flights and the second head includes one or more second flutes, wherein the second flights and the second flutes are configured to interact with the second portion of the material to move the second portion of the material in the downstream direction with rotation of the second feed screw. 6. The grinding machine of claim 5 , wherein: the one or more second flights are arranged in a split flight configuration, the one or more second flights of the split flight configuration include one or more ingress end flights and a plurality of egress end flights, each egress end flight extending less than 360 degrees around the second feed screw and terminating in a blade which extends radially outward from each egress end flight. 7. The grinding machine of claim 6 , wherein: the second feed screw including an ingress end configured to receive material and an egress end configured to discharge the material; the one or more ingress end flights include three ingress end flights, the ingress end flights extending from respective first ends at the ingress end of the second feed screw to respective second ends at intermediate locations axially spaced from and between the ingress end of the second feed screw and the egress end of the second feed screw; and the plurality of egress end flights include three egress end flights, the egress end flights extending from respective first ends at the egress end of the second feed screw to respective second ends at intermediate locations axially spaced from and between the egress end of the second feed screw and the ingress end of the second feed screw. 8. The grinding machine of claim 7 , wherein three ingress feed paths are formed between respective pairs of adjacent ingress end flights, and three egress feed paths are formed between respective pairs of adjacent egress end flights. 9. The grinding machine of claim 8 , wherein each ingress feed path is configured to discharge the material to at least two different egress feed paths. 10. The grinding machine of claim 6 , wherein: the second feed screw including an ingress end configured to receive material and an egress end configured to discharge the material; the one or more ingress end flights include a single ingress end flight extending from a first end at the ingress end of the second feed screw to a second end at an intermediate location axially spaced from and between the ingress end and the egress end of the second feed screw; and the plurality of egress end flights include three egress end flights, the egress end flights extending from respective first ends at the egress end of the second feed screw to respective second ends at intermediate locations axially spaced from and between the egress end and the ingress end of the second feed screw. 11. The grinding machine of claim 10 , wherein the one or more ingress end flights extends 360 degrees to 720 degrees around the second feed screw. 12. The grinding machine of claim 10 , an ingress feed path is formed at least in part by the one or more ingress end flights, and three egress feed paths are formed at least in part between respective pairs of adjacent egress end flights. 13. The grinding machine of claim 12 , wherein the ingress feed path is configured to discharge second portions of the material to each egress feed path.