Apparatus and method for peening of machine components

What is claimed is: 1. A set of treatment enclosures for a peening device, the peening device configured for treating a component, the set of treatment enclosures comprising: a first treatment enclosure configured to mate with a first corresponding portion of the component including a dovetail slot, the first treatment enclosure including: a first chamber, a first interface coupled to the first chamber, the first interface configured to removably attach to a shot media propulsion source of the peening device, and a first aperture extending through the first interface and the first chamber for the shot media propulsion source to propel a quantity of shot media therethrough to the component, wherein a portion of the first aperture distal from the first interface divides into a pair of opposing side apertures, the pair of opposing side apertures configured, respectively, for positioning adjacent one of two opposing side portions of the dovetail slot of the component, such that the quantity of shot media contacts only the two opposing side portions of the dovetail slot during operation of the peening device; and a second treatment enclosure configured to mate with a second corresponding portion of the component, the second treatment enclosure including: a second chamber, a second interface coupled to the second chamber, the second interface configured to removably attach to the shot media propulsion source of the peening device, and a second aperture extending through the second interface and the second chamber for the shot media propulsion source to propel the quantity of shot media therethrough to the second corresponding portion of the component. 2. The set of treatment enclosures of claim 1 , wherein the second corresponding portion of the component includes a circumferentially extending positive surface of the component, and wherein the second treatment enclosure includes a positive treatment enclosure that is complementary to and configured to treat the positive surface of the component. 3. The set of treatment enclosures of claim 2 , wherein the chamber of the second treatment enclosure includes a pair of opposing side walls configured to extend circumferentially adjacent the component, the pair of opposing side walls define a U-shaped groove. 4. The set of treatment enclosures of claim 1 , wherein the first corresponding portion of the component includes a circumferentially extending negative surface of the component, and wherein the first treatment enclosure includes a negative treatment enclosure that is complementary to and configured to treat the negative surface of the component. 5. The set of treatment enclosures of claim 4 , wherein the chamber of the first treatment enclosure includes a pair of opposing side walls configured to extend axially adjacent the component, such that the opposing side walls are received by the negative surface of the component. 6. The set of treatment enclosures of claim 1 , wherein the first treatment enclosure includes a dovetail slot treatment enclosure configured to be received by the dovetail slot of the component. 7. The set of treatment enclosures of claim 1 , wherein the second treatment enclosure includes a rim treatment enclosure configured to mate with a rim of the second corresponding portion of the component. 8. The set of treatment enclosures of claim 7 , wherein the rim treatment enclosure includes a chamber having a side wall to define a half U-shaped groove. 9. The set of treatment enclosures of claim 8 , wherein the half U-shaped groove is substantially complementary to the rim of the second corresponding portion of the component for the rim treatment enclosure to enclose the rim, such that the quantity of shot media contacts only the rim during operation of the peening device. 10. The set of treatment enclosures of claim 1 , wherein the chamber of at least one of the first treatment enclosure or the second treatment enclosure includes a shape that corresponds to and is configured to treat a rotationally symmetric first corresponding portion of the component or a rotationally symmetric second corresponding portion of the component when the component is rotated. 11. The set of treatment enclosures of claim 10 , wherein at least one of the first treatment enclosure or the second treatment enclosure is configured to remain stationary when the component is rotated. 12. A method of treating a component using a peening device, the peening device including a shot media propulsion source, the method comprising: coupling a first treatment enclosure to the shot media propulsion source, the first treatment enclosure including: a first chamber, a first interface coupled to the first chamber, the first interface removably coupled to the shot media propulsion source, and a first aperture extending through the first interface and the first chamber, the first aperture including a portion distal from the first interface that divides into a pair of opposing side apertures; positioning the first treatment enclosure of the peening device with respect to a first portion of the component including a dovetail slot, such that the pair of opposing side apertures of the first treatment enclosure are positioned adjacent one of two opposing side portions of the dovetail slot of the component; and activating the shot media propulsion source, such that a quantity of shot media contacts only the two opposing side portions of the dovetail slot. 13. The method of claim 12 , further comprising: coupling a second treatment enclosure to the shot media propulsion source, the second treatment enclosure including: a second chamber, a second interface coupled to the second chamber, the second interface removably coupled to the shot media propulsion source, and a second aperture extending through the second interface and the second chamber; positioning the second treatment enclosure of the peening device with respect to a second portion of the component; and reactivating the shot media propulsion source, wherein the second treatment enclosure and the second portion cooperate to enclose the shot media propelled by the shot media propulsion source. 14. The method of claim 13 , further comprising: rotating the component subsequent to one of: positioning the first treatment enclosure of the peening device with respect to a first portion of the component, or positioning the second treatment enclosure of the peening device with respect to a second portion of the component, wherein at least one of the first treatment enclosure or the second treatment enclosure is configured to treat a rotationally symmetric first portion of the component or a rotationally symmetric second portion of the component. 15. The method of claim 14 , further comprising: maintaining a stationary position for at least one of the first treatment enclosure or the second treatment enclosure when the component is rotated. 16. The method of claim 13 , wherein the second portion of the component includes a circumferentially extending positive surface of the component, wherein the second treatment enclosure includes a positive treatment enclosure that is complementary to and configured to treat the positive surface of the component. 17. The method of claim 16 , wherein the chamber of the second treatment enclosure includes a pair of opposing side walls configured to extend circumferentially adjacent the component, the pair of opposing side walls define a U-shaped groove. 18. The method of claim 13 , wherein the second treatment enclosure inc