Metallic attachment system integrated into a composite structure

What is claimed is: 1. An attachment assembly for a gas turbine, comprising: a first component defining a first aperture; a second component at least partially overlapping the first component, wherein the second component includes a first surface and a second surface and defines a second aperture extending between the first surface and the second surface; an insert comprising an insert annular wall positioned in the second aperture of the second component and an insert flange extending radially outwardly from the insert annular wall, wherein the insert flange is adjacent to the first surface of the second component, and wherein the insert annular wall defines an insert aperture therethrough; a bushing comprising a bushing annular wall positioned in the second aperture of the second component and a bushing flange extending radially outwardly from the bushing annular wall, wherein the bushing annular wall defines a bushing aperture therethrough; a spring washer positioned between the second surface of the second component and the bushing flange; and a fastener that couples the first component and the second component, wherein the first aperture, the insert aperture, the bushing aperture, and the second aperture receive the fastener, wherein the fastener has a head and a shank extending from the head, and wherein an axial gap is defined between the head and the bushing flange in which no components are positioned. 2. The attachment assembly of claim 1 , wherein the first component is a metallic turbine rear frame and the second component is a composite center body. 3. The attachment assembly of claim 1 wherein the first component is a composite forward center body and the second component is a composite aft center body. 4. The attachment assembly of claim 1 , wherein a diameter of the insert flange is relatively longer than a length of the insert annular wall. 5. The attachment assembly of claim 1 , wherein the bushing directly engages the insert. 6. The attachment assembly of claim 1 , further comprising: a leaf seal positioned between and directly engaging the first component and the insert flange. 7. The attachment assembly of claim 1 , further comprising: a collar positioned in the first aperture of the first component for threadingly engaging the fastener. 8. The attachment assembly of claim 1 , further comprising: a backer washer positioned between and directly engaging the spring washer and the second component. 9. The attachment assembly of claim 1 , wherein the bushing, the spring washer, and the fastener are metallic. 10. The attachment assembly of claim 1 , wherein the insert annular wall of the insert is threadingly coupled with the bushing annular wall of the bushing. 11. The attachment assembly of claim 1 , wherein the insert annular wall has a radial surface and the bushing flange has a first surface and a second surface spaced radially outward of the first surface, and wherein the radial surface of the insert annular wall engages the second surface of the bushing flange. 12. The attachment assembly of claim 11 , further comprising: a backer washer positioned between and directly engaging the spring washer and the second component, and wherein the spring washer directly engages the backer washer and the second surface of the bushing flange. 13. An attachment assembly for a gas turbine, comprising: a first component defining a first aperture and having a first surface and a second surface radially spaced from the first surface; a first insert having a first insert annular wall positioned in the first aperture of the first component and a first insert flange extending radially outward from the first insert annular wall, wherein the first insert flange is adjacent to the first surface of the first component, and wherein the first insert annular wall defines a first insert aperture therethrough; a first bushing having a first bushing annular wall positioned in the first aperture of the first component and a first bushing flange extending radially outward from the first bushing annular wall, wherein the first bushing annular wall defines a first bushing aperture therethrough, and wherein the first bushing flange directly engages the first insert annular wall; a first spring washer positioned between the second surface of the first component and the first bushing flange; a second component at least partially overlapping the first component, wherein the second component has a first surface and a second surface and defines a second aperture extending between the first surface of the second component and the second surface of the second component; a second insert having a second insert annular wall positioned in the second aperture of the second component and a second insert flange extending radially outward from the second insert annular wall, wherein the second insert flange is adjacent to the first surface of the second component, and wherein the second insert annular wall defines a second insert aperture therethrough; a second bushing having a second bushing annular wall positioned in the second aperture of the second component and a second bushing flange extending radially outward from the second bushing annular wall, wherein the second bushing annular wall defines a second bushing aperture therethrough, and wherein the second bushing flange directly engages the second insert annular wall; a second spring washer positioned between the second surface of the second component and the second bushing flange; and a fastener coupling the first component and the second component, wherein the first aperture, the first insert aperture, the first bushing aperture, the second aperture, the second insert aperture, and the second bushing aperture receive the fastener. 14. The attachment assembly of claim 13 , wherein the first insert annular wall of the first insert is threadingly coupled with the first bushing annular wall of the first bushing and the second insert annular wall of the second insert is threadingly coupled with the second bushing annular wall of the second bushing. 15. The attachment assembly of claim 13 , wherein the second bushing annular wall is threadingly coupled with the fastener. 16. The attachment assembly of claim 13 , wherein the first bushing flange of the first bushing has a first surface and a second surface radially spaced from the first surface of the first bushing flange, and wherein the first surface of the first bushing flange directly engages the second insert flange. 17. The attachment assembly of claim 16 , wherein the first surface of the first bushing flange directly engages the second bushing annular wall. 18. The attachment assembly of claim 13 , wherein the first insert annular wall has a radially inner surface having a threaded portion and a smooth portion positioned axially outward of the threaded portion, wherein the threaded portion of the first insert annular wall threadingly couples the first insert with the first bushing. 19. The attachment assembly of claim 13 , wherein the first insert annular flange is positioned radially outward of the first component, the first bushing flange and the second insert annular flange are positioned radially between the first component and the second component, and the second bushing flange is positioned radially inward of the second component.