Assembly of sub-components by compression molding

What is claimed is: 1. A method of manufacturing a thermoplastic composite component assembly, the method comprising: a. manufacturing a discrete assembly feature component, wherein the assembly feature component comprises one of a stud, a fastener, or a threaded insert; b. manufacturing a discrete thermoplastic composite component having an outer surface that is an outer surface of a completed thermoplastic composite component assembly; c. aligning the assembly feature component with an assembly feature site on the outer surface of the thermoplastic composite component, and positioning the assembly feature component in contact with the outer surface of the thermoplastic composite component at the assembly feature site; and d. applying heat and compression in a compression molding process to bond the assembly feature component to the outer surface of the thermoplastic composite component at the assembly feature site to form the completed thermoplastic composite component assembly with the assembly feature component attached at and extending outward from the outer surface of the completed thermoplastic composite component assembly. 2. The method of claim 1 wherein the compression molding process comprises applying heat and compression to the thermoplastic composite material. 3. The method of claim 2 wherein the thermoplastic composite component has a molded shape. 4. The method of claim 1 wherein the thermoplastic composite component comprises a plurality of thermoplastic composite layers, and manufacturing the thermoplastic composite component further comprises performing a pre-consolidation process to form non-molded laminated thermoplastic composite layers, and performing the compression molding process comprises performing a first compression molding process to the laminated thermoplastic composite layers to form the thermoplastic composite component, wherein the assembly feature component is subsequently aligned and positioned on the formed thermoplastic composite component and bonded to the formed thermoplastic composite component using a second compression molding process separate from the first compression molding process. 5. The method of claim 4 wherein each thermoplastic composite layer comprises a thermoplastic material and a fibrous reinforcement. 6. The method of claim 1 wherein the assembly feature component includes a thermoplastic layer at a distal end, and aligning the assembly feature component with the assembly feature site on the thermoplastic composite component comprises placing the thermoplastic layer at the distal end of the assembly feature component against the thermoplastic composite component, and applying the compression molding process melts the thermoplastic layer to bond the distal end of the assembly feature component with the thermoplastic composite component at the assembly feature site. 7. The method of claim 1 wherein the assembly feature component comprises a threaded insert, and the threaded insert comprises a thread insert and thermoplastic layer coupled to the thread insert. 8. The method of claim 7 wherein the threaded insert has a threaded hole exposed at a first end of the threaded insert, and the thermoplastic layer forms a cap over a second end of the threaded insert. 9. The method of claim 8 wherein the cap of the threaded insert is positioned against the thermoplastic composite component, and applying heat and pressure melts the cap to bond with the thermoplastic composite component at the assembly feature site. 10. The method of claim 1 further comprising manufacturing a plurality of the discrete assembly feature components, aligning each of the plurality of assembly feature components with a corresponding assembly feature site on the thermoplastic composite component, and applying heat and compression to bond each of the plurality of assembly feature components to the thermoplastic composite component at each of the corresponding assembly feature sites. 11. The method of claim 10 wherein applying heat and compression comprises applying a compression molding process to simultaneously bond each of the plurality of assembly feature components to the thermoplastic composite component at each of the corresponding assembly feature sites. 12. The method of claim 11 wherein aligning each of the plurality of assembly feature components with a corresponding assembly feature site on the thermoplastic composite component comprises positioning each of the plurality of assembly feature components in a corresponding cavity within a compression molding tool and positioning the thermoplastic composite component into a holding location in the compression molding tool. 13. The method of claim 4 wherein aligning the assembly feature component with an assembly feature site on the outer surface of the thermoplastic composite component comprises loading the formed thermoplastic composite component in a compression tool that includes a first location into which is positioned the formed thermoplastic composite component and a cavity into which is positioned the assembly feature component, and applying heat and compression using the compression tool to reflow a thermoplastic layer at a distal end of the assembly feature component that bonds with the thermoplastic composite component at the assembly feature site. 14. A method of manufacturing a thermoplastic composite component assembly, the method comprising: a. manufacturing a discrete assembly feature component that includes a thermoplastic layer at a distal end, wherein the assembly feature component comprises one of a stud, a fastener, or a threaded insert; b. manufacturing a discrete thermoplastic composite component having an outer surface that is an outer surface of a completed thermoplastic composite component assembly; c. aligning the assembly feature component with an assembly feature site on the outer surface of the thermoplastic composite component, and positioning the assembly feature component in contact with the outer surface of the thermoplastic composite component at the assembly feature site by placing the thermoplastic layer at the distal end of the assembly feature component against the thermoplastic composite component; and d. applying heat and compression in a compression molding process to bond the assembly feature component to the outer surface of the thermoplastic composite component at the assembly feature site to melt the thermoplastic layer at the distal end of the assembly feature component to bond the distal end of the assembly feature component with the thermoplastic composite component at the assembly feature site to form the completed thermoplastic composite component assembly with the assembly feature component attached at and extending outward from the outer surface of the completed thermoplastic composite component assembly.