Method and assembly for forming components having a catalyzed internal passage defined therein

What is claimed is: 1. A method of forming a component having an internal passage defined therein, said method comprising: positioning a jacketed core with respect to a mold, wherein the jacketed core includes: a hollow structure that extends radially inward from an outer wall to an interior portion, wherein the interior portion is formed from at least a first catalyst, wherein the hollow structure comprises a first material that extends radially from the outer wall to the at least first catalyst, and wherein the first material is metallic; and an inner core disposed within the hollow structure, wherein the first catalyst abuts the inner core; introducing a component material in a molten state into a cavity of the mold; and cooling the component material in the cavity to form the component, wherein the inner core defines the internal passage within the component. 2. The method of claim 1 , wherein said introducing the component material into the cavity comprises introducing the component material such that, after the component is formed, a concentration of the first catalyst proximate the inner core is sufficient to establish a catalytic effect associated with the first catalyst along at least a portion of an interior wall that defines the internal passage within the component. 3. The method of claim 1 , wherein said introducing the component material into the cavity comprises introducing the component material such that, after the component is formed, the first catalyst lines at least a portion of an interior wall that defines the internal passage within the component. 4. The method of claim 1 , wherein said positioning the jacketed core comprises positioning the jacketed core wherein the first catalyst is selected from one of (i) a reformation catalyst, (ii) a proton acid, (iii) alumina, and (iv) vanadium oxide. 5. The method of claim 1 , wherein said positioning the jacketed core comprises positioning the jacketed core wherein the first catalyst extends over at least one predefined first longitudinal portion of the interior portion of the hollow structure, radially inward of the first material. 6. The method of claim 5 , wherein said positioning the jacketed core comprises positioning the jacketed core that includes the hollow structure formed from the first material, the first catalyst, and a second catalyst, and wherein the second catalyst extends over at least one predefined second longitudinal portion of the interior portion of the hollow structure, radially inward of the first material. 7. The method of claim 1 , wherein the interior portion is shaped to define at least one interior passage feature of the internal passage, said introducing the component material into the cavity comprises introducing the component material such that, after the component is formed, the first catalyst forms at least a portion of the at least one interior passage feature. 8. The method of claim 1 , wherein the hollow structure includes at least one strut that divides the inner core into a plurality of longitudinally extending chambers, the first catalyst disposed along the at least one strut adjacent the inner core, said introducing the component material into the cavity comprises introducing the component material such that, after the component is formed, each of the plurality of chambers of the inner core defines a corresponding chamber of the internal passage. 9. The method of claim 1 , wherein said positioning the jacketed core comprises positioning the jacketed core that includes the hollow structure formed using an additive manufacturing process. 10. The method of claim 1 , further comprising forming the hollow structure using an additive manufacturing process. 11. The method of claim 10 , wherein using an additive manufacturing process comprises alternately depositing each of the first material and the first catalyst to produce a defined distribution of the first material and the first catalyst in each of a plurality of layers of the hollow structure. 12. The method of claim 10 , wherein using an additive manufacturing process comprises using at least one of a direct metal laser melting (DMLM) process, a direct metal laser sintering (DMLS) process, a selective laser sintering (SLS) process, an electron beam melting (EBM) process, a selective laser melting process (SLM), and a robocasting extrusion-type additive process. 13. A mold assembly for use in forming a component having an internal passage defined therein, said mold assembly comprising: a mold defining a mold cavity therein; and a jacketed core positioned with respect to said mold, said jacketed core comprising: a hollow structure that extends radially inward from an outer wall to an interior portion, wherein said interior portion is formed from at least a first catalyst, wherein said hollow structure comprises a first material that extends radially from said outer wall to said at least first catalyst, and wherein said first material is metallic; and an inner core disposed within said hollow structure and positioned to define the internal passage within the component when a component material in a molten state is introduced into said mold cavity and cooled to form the component, wherein said first catalyst abuts said inner core. 14. The mold assembly of claim 13 , wherein said first catalyst is one of (i) a reformation catalyst, (ii) a proton acid, (iii) alumina, and (iv) vanadium oxide. 15. The mold assembly of claim 13 , wherein said first catalyst extends over at least one predefined first longitudinal portion of an interior portion of said hollow structure, radially inward of said first material. 16. The mold assembly of claim 13 , wherein said interior portion is shaped to define at least one interior passage feature of the internal passage when the component is formed. 17. The mold assembly of claim 13 , wherein said hollow structure is formed using an additive manufacturing process. 18. A mold assembly for use in forming a component having an internal passage defined therein, said mold assembly comprising: a mold defining a mold cavity therein; and a jacketed core positioned with respect to said mold, said jacketed core comprising: a hollow structure formed from a first material, a first catalyst, and a second catalyst, wherein said first catalyst extends over at least one predefined first longitudinal portion of an interior portion of said hollow structure, radially inward of said first material, and said second catalyst extends over at least one predefined second longitudinal portion of said interior portion of said hollow structure, radially inward of said first material; and an inner core disposed within said hollow structure and positioned to define the internal passage within the component when a component material in a molten state is introduced into said mold cavity and cooled to form the component. 19. A mold assembly for use in forming a component having an internal passage defined therein, said mold assembly comprising: a mold defining a mold cavity therein; and a jacketed core positioned with respect to said mold, said jacketed core comprising: a hollow structure formed from at least a first material and a first catalyst, wherein said hollow structure further comprises at least one strut; and an inner core disposed within said hollow structure and positioned to define the internal passage within the component when a component material in a molten state is introduced into said mold cavity and cooled to form the component, wherein said at least one strut divides