Injection molding feedstock delivery system

The invention claimed is: 1. A feedstock delivery system for injection molding, the feedstock delivery system comprising: a vessel unit having a vessel defining an internal volume thereof and an inlet opening in communication with the internal volume, the inlet opening defining an inlet of the feedstock delivery system for receipt of feedstock into the internal volume; a first dispensing unit having a first end, a second end, and a first conduit disposed therebetween, the first end being connected to the vessel unit such that the first conduit is in communication with the internal volume of the vessel, the second end being configured to connect to an injection mold and having an outlet opening defining an outlet of the feedstock delivery system; a fluid jacket enclosing at least a portion of the vessel and at least a portion of the first conduit of the first dispensing unit such that heated fluid flowing through the fluid jacket transforms the feedstock into a feedstock slurry and maintains the feedstock slurry at a constant temperature as it is dispensed from the internal volume of the vessel unit and out through the outlet opening of the first dispensing unit via at least the first conduit; and a variable speed agitator disposed within the vessel to agitate and further maintain the feedstock slurry at the constant temperature, the variable speed agitator being configured to operate while the feedstock slurry is disposed within the internal volume of the vessel unit and as the feedstock slurry is dispensed from the internal volume and out through the outlet opening of the first dispensing unit via at least the first conduit. 2. The feedstock delivery system of claim 1 , wherein the vessel unit includes an outlet opening and a valve positioned at the outlet opening of the vessel, the valve being configured to regulate a flow of the feedstock slurry from the internal volume of the vessel to the first dispensing unit. 3. The feedstock delivery system of claim 2 , wherein the valve has a head configured to move from a first position in which it obstructs the outlet opening of the vessel to a second position in which the outlet opening of the vessel is unobstructed by the head allowing feedstock slurry to flow therethrough, the head being configured to move linearly from the first position to the second position. 4. The feedstock delivery system of claim 3 , wherein the vessel unit includes a vessel unit conduit extending from the outlet opening of the vessel to the first end of the first dispensing unit, the vessel unit conduit being enclosed by the fluid jacket. 5. The feedstock delivery system of claim 3 , further comprising an air compressor connected to the vessel and in communication with the internal volume thereof such that compressed air from the air compressor imposes a pressure on the feedstock slurry to dispense the feedstock slurry from the internal volume of the vessel to the first dispensing unit when the valve is in the second position. 6. The feedstock delivery system of claim 1 , wherein the first conduit extends from the first end to the second end of the first dispensing unit. 7. The feedstock delivery system of claim 1 , wherein the first dispensing unit includes a second conduit, a buffer chamber, and a piston within the buffer chamber, the buffer chamber being in communication with the first and second conduits and disposed therebetween. 8. The feedstock delivery system of claim 7 , wherein the first dispensing unit includes first and second valves, the first valve being arranged on the first conduit to regulate flow of the feedstock slurry between the first conduit and buffer chamber, the second valve being arranged on the second conduit to regulate flow of the feedstock slurry between the buffer chamber and second conduit, the second conduit defining the outlet opening of the feedstock delivery system. 9. The feedstock delivery system of claim 8 , further comprising a second dispensing unit being alternatively connectable to the vessel unit and having first and second ends, first and second valves, and a buffer chamber, the first end of the second dispensing unit being connectable to the vessel unit such that the buffer chamber of the second dispensing unit is in communication with the internal volume of the vessel, the second end of the second dispensing unit being connectable to the injection mold and defining an outlet opening of the second dispensing unit, the buffer chamber of the second dispensing unit defining a second chamber volume larger than a first chamber volume of the first dispensing unit, the buffer chamber of the second dispensing unit being in communication with the outlet opening of the second dispensing unit and being positioned between the first and second valves thereof. 10. The feedstock delivery system of claim 9 , a third dispensing unit having a first end, a second end, and a conduit extending uninterrupted from the first end to the second end thereof, the first end of the third dispensing unit being connectable to the vessel unit and the second end of the third dispensing unit defining an outlet opening of the third dispensing unit. 11. The feedstock delivery system of claim 1 , further comprising a fluid circulator module in communication with the fluid jacket and configured to heat a fluid and circulate the fluid through the fluid jacket. 12. The feedstock delivery system of claim 11 , wherein the fluid jacket includes a first fluid jacket at least partially enclosing the vessel of the vessel unit and a second fluid jacket at least partially enclosing the first conduit of the first dispensing unit, the first and second fluid jackets being separate from each other such that fluid flowing through the first fluid jacket is isolated from fluid flowing through the second fluid jacket. 13. A feedstock delivery system for injection molding, the feedstock delivery system comprising: a vessel unit having a vessel defining an internal volume thereof and an inlet opening in communication with the internal volume for receipt of feedstock into the internal volume; and first and second dispensing units being alternatively connectable to the vessel unit and each having first and second ends, first and second valves, and a buffer chamber, the first end being connectable to the vessel unit such that the buffer chamber is in communication with the internal volume of the vessel, the second end being connectable to an injection mold and defining an outlet of the feedstock delivery system, the outlet being in communication with the buffer chamber, and the buffer chamber being positioned between the first and second valves, wherein when the feedstock is caused to flow from the vessel unit toward the injection mold, the first valve is configured to open when the first valve is subject to a first pressure by the feedstock upstream of the first valve and the second valve is configured to open when the second valve is subject to a second pressure by the feedstock upstream of the second valve within the buffer chamber, the second pressure being greater than the first pressure, wherein the buffer chamber of the first dispensing unit defines a first chamber volume and the buffer chamber of the second dispensing unit defines a second chamber volume greater than the first chamber volume. 14. The feedstock delivery system of claim 13 , wherein the first dispensing unit includes a first fluid jacket enclosing the buffer chamber thereof and the second dispensing unit includes a second fluid jacket enclosing the buffer chamber thereof. 15. The feedstock delivery system of claim 14 , wherein the vessel unit includes a