Mold system including separable, variable mold portions for forming casting article for investment casting

What is claimed is: 1. A mold system for forming a casting article for investment casting of a component, the casting article including a core surrounded by a sacrificial material, the mold system comprising: a mold for receiving therein the core; at least one core positioner for positioning the core within the mold; a space formed between an exterior surface of the core and an interior surface of the mold by the at least one core positioner, the space between the exterior surface of the core and the interior surface of the mold defining a shape of the component for the investment casting; a sacrificial material fluid, wherein the sacrificial material fluid comprises a wax or a polymer; the mold including a plurality of sacrificial material fluid input zones configured to receive the sacrificial material fluid to form the sacrificial material about the core in the shape of the component for the investment casting; a sacrificial material heating system configured to heat a plurality of flows of the sacrificial material fluid to different temperatures, wherein at least one of the plurality of sacrificial material fluid zones includes at least one sacrificial material fluid input for depositing the sacrificial material fluid into the space formed between the mold and the core to fill the space formed between the exterior surface of the core and the interior surface of the mold with the sacrificial material, the sacrificial material fluid when solidified forming the sacrificial material about the core, and wherein one sacrificial material fluid input zone receives one of the plurality of flows of the sacrificial material fluid heated to a first temperature by the sacrificial material heating system and another sacrificial material fluid input zone receives another of the plurality of flows of the sacrificial material fluid heated to a second, different temperature by the sacrificial material heating system. 2. The mold system of claim 1 , wherein the mold includes a plurality of separable mold portions that are coupleable together to create the mold and configured to form the sacrificial material from the sacrificial material fluid about the core, wherein each separable mold portion includes at least one sacrificial material fluid input zone. 3. The mold system of claim 2 , wherein a selected separable mold portion of the plurality of separable mold portions includes a set of varied interchangeable versions of the at least one selected separable mold portion, each varied interchangeable version of the selected separable mold portion configured to accommodate a different core of a plurality of varied cores. 4. The mold system of claim 3 , wherein each varied interchangeable version of the at least one selected separable mold portion includes at least one of a different: mold opening shape, mold opening size, length, width, height, coefficient of thermal expansion or material. 5. The mold system of claim 1 , wherein the temperature of the sacrificial material fluid received in each sacrificial material fluid input zone is based on a characteristic of the core in the respective sacrificial material input zone. 6. A mold system for forming a casting article for investment casting of a component, the casting article including a core surrounded by a sacrificial material, the mold system comprising: a mold for receiving therein the core; at least one core positioner for positioning the core within the mold; a space formed between an exterior surface of the core and an interior surface of the mold by the at least one core positioner, the space between the exterior surface of the core and the interior surface of the mold defining a shape of the component for the investment casting; a sacrificial material fluid, wherein the sacrificial material fluid comprises a wax or a polymer; the mold including a plurality of separable mold portions that are coupleable together to create the mold and configured to form the sacrificial material about the core from the sacrificial material fluid, wherein each separable mold portion includes a mold thermal conducting conduit therein configured to pass a temperature controlled thermal fluid therethrough to control a temperature of at least the sacrificial material fluid within the respective separable mold portion; a thermal fluid controller controlling a temperature of the temperature controlled thermal fluid passing through each of the plurality of separable mold portions, at least one separable mold portion having the temperature controlled thermal fluid passing therethrough having a temperature different than another separable mold portion; and at least one sacrificial material fluid input for depositing the sacrificial material fluid into the space formed between the exterior surface of the core and the interior surface of the mold to fill the space formed between the exterior surface of the core and the interior surface of the mold with the sacrificial material, the sacrificial material fluid when solidified forming the sacrificial material about the core. 7. The mold system of claim 6 , wherein at least one selected separable mold portion of the plurality of separable mold portions includes a set of varied interchangeable versions of the at least one selected separable mold portion, each varied interchangeable version of the selected separable mold portion configured to accommodate a different core of a plurality of varied cores. 8. The mold system of claim 7 , wherein each varied interchangeable version of the at least one selected separable mold portion includes a mold thermal conducting conduit different than the mold thermal conducting conduit in the other separable mold portions of the set. 9. The mold system of claim 7 , wherein each varied interchangeable version of the at least one selected separable mold portion includes at least one of a different: mold opening shape, mold opening size, length, width, height, coefficient of thermal expansion or material. 10. The mold system of claim 7 , wherein the temperature of the sacrificial material fluid received in each separable mold portion is based on a characteristic of the core in the respective separable mold portion.