Systems and methods to cold work metal/composite structures

What is claimed is: 1. An adapter assembly for a system for cold working a portion of a metal layer having a first thickness, the portion surrounding a hole in a structure that comprises the metal layer and an adjacent non-metal layer having a second thickness, the adapter assembly comprising: a shim adapter housing comprising: a face wall having a first aperture that is larger than the hole; a side wall extending from the face wall, wherein a cavity is at least partially delimited by the face wall and the side wall; and a shim plate dimensioned to fit within the cavity, the shim plate having a second aperture that is larger than the hole; and a split sleeve having a length and configured to be inserted into the hole through the second aperture of the shim plate and engage a solid mandrel drawn through the split sleeve during a cold working process, wherein the shim plate has a thickness selected based on the length of the split sleeve such that, when the split sleeve is inserted into the hole through the second aperture during the cold working process, the split sleeve extends beyond the first thickness to less than 10% of the second thickness. 2. The adapter assembly of claim 1 , wherein the shim plate comprises a plurality of layers. 3. The adapter assembly of claim 2 , wherein the layers are detachably interconnected. 4. The adapter assembly of claim 1 , further comprising a shim retainer dimensioned to fit within the cavity, the shim retainer having a third aperture to be positioned adjacent the second aperture. 5. A system to cold work a metal section having a first thickness proximate a hole in a structure comprising a non-metal section having a second thickness adjacent the metal section, the system comprising: a split sleeve comprising a flare and a body having a length L 1 extending along a central axis and an outer diameter D 3 dimensioned to fit within the hole; a shim adapter housing comprising: a face wall adapted to be positioned adjacent the structure, the face wall having a first aperture to be positioned adjacent the hole; a side wall depending from the face wall to define a cavity; and a shim plate dimensioned to fit within the cavity, the shim plate having a second aperture to be positioned adjacent the first aperture; the split sleeve configured to be inserted into the hole through the second aperture and to engage a solid mandrel drawn through the body of the split sleeve during a cold working operation, wherein the shim plate has a thickness selected based on the length L 1 such that, when the split sleeve is inserted into the hole through the second aperture during the cold working operation, the split sleeve extends beyond the first thickness to less than 10% of the second thickness. 6. The system of claim 5 , wherein: the metal section of the structure has a thickness T 1 proximate the hole; the shim adapter housing has a thickness T 2 proximate the first aperture; and the shim plate has a thickness T 3 proximate the second aperture, wherein the length L 1 minus a sum of the thickness T 2 and the thickness T 3 is at least as great as the thickness T 1 . 7. The system of claim 6 , wherein the length L 1 minus a sum of the thickness T 2 and the thickness T 3 exceeds the thickness T 1 by an amount between about 5 percent and about 10 percent of a thickness T 5 of the non-metal section of the structure. 8. The system of claim 5 , further comprising a shim retainer dimensioned to fit within the cavity, the shim retainer having a third aperture to be positioned adjacent the second aperture. 9. The system of claim 8 , wherein: the metal section of the structure has a thickness T 1 proximate the hole; the shim adapter housing has a thickness T 2 proximate the first aperture; the shim plate has a thickness T 3 proximate the second aperture; and the shim retainer has a thickness T 4 proximate the third aperture, wherein the length L 1 minus a sum of the thickness T 2 , the thickness T 3 , and the thickness T 4 is at least as great as the thickness T 1 . 10. The system of claim 9 , wherein the length L 1 minus a sum of the thickness T 2 , the thickness T 3 , and the thickness T 4 exceeds the thickness T 1 by an amount between about 5 percent and about 10 percent of a thickness T 5 of the non-metal section of the structure. 11. A method to cold work a metal section proximate a hole in a structure the metal section having a first thickness and positioned adjacent to a non-metal section having a second thickness, the method comprising: positioning a shim adapter housing adjacent the hole in the structure, the shim adapter housing comprising: a face wall adapted to be positioned adjacent the structure, the face wall having a first aperture to be positioned adjacent the hole; and a side wall depending from the face wall to define a cavity; positioning a shim plate within the cavity, the shim plate having a second aperture to be positioned adjacent the first aperture; inserting a split sleeve through the second aperture, the split sleeve comprising a flare and a body, the body having a length extending along a central axis and having an outer diameter dimensioned to fit within the hole; and drawing a mandrel through the body of the split sleeve, wherein the mandrel causes the split sleeve to apply a compressive force to the metal section of the structure, and wherein the shim plate has a thickness selected based on the length of the body of the split sleeve such that, when the split sleeve is inserted into the hole through the second aperture during cold working, the split sleeve extends beyond the first thickness to less than 10% of the second thickness. 12. The method of claim 11 , further comprising positioning a shim retainer within the cavity, the shim retainer having a third aperture to be positioned adjacent the second aperture. 13. The method of claim 12 , wherein: the metal section of the structure has a thickness T 1 proximate the hole; the shim adapter housing has a thickness T 2 proximate the first aperture; the shim plate has a thickness T 3 proximate the second aperture; and the shim retainer has a thickness T 4 proximate the third aperture, wherein the length L 1 minus a sum of the thickness T 2 , the thickness T 3 , and the thickness T 4 is at least as great as the thickness T 1 . 14. The method of claim 13 , wherein the length L 1 minus sum of the thickness T 2 , the thickness T 3 , and the thickness T 4 exceeds the thickness T 1 by an amount between about 5 percent and about 10 percent of a thickness T 5 of the non-metal section of the structure. 15. A system for cold working a portion of a metal layer with a first thickness in a structure, the portion surrounding a hole in the structure which further includes a non-metal layer with a second thickness adjacent to the metal layer, the system comprising: a split sleeve including a body having a length L 1 and an outer diameter D 3 dimensioned to be received within the hole; and a shim plate including an aperture that is larger than the hole; wherein the split sleeve is configured to be inserted into the hole through the aperture of the shim plate and engage a solid mandrel drawn through the body of the split sleeve during a cold working process, and wherein the shim plate has a thickness selected based on the length L 1 such that, when the split sleeve is inserted into the hole through the aperture during the cold working process, the split sleeve extends beyond the first thickness to less than 10% of the second thickness. 16. The s