Bladder cast slurry infiltration

The invention claimed is: 1. A method comprising: infiltrating a ceramic matrix composite (CMC) substrate positioned in a cavity of a mold body with a slurry, wherein the CMC substrate comprises reinforcement material defining inner spaces, wherein the slurry comprises solid particles and a carrier material, wherein the slurry at least partially fills at least a portion of the inner spaces of the CMC substrate; inflating a plurality of bladders coupled to the mold body and disposed within the cavity, wherein a surface of a first bladder of the plurality of bladders in an inflated configuration contacts a first surface of the CMC substrate, a surface of a second bladder of the plurality of bladders contacts a second, opposite surface of the CMC substrate, wherein each bladder of the plurality of bladders, when in the inflated configuration, is shaped to define a selected mold shape of the CMC substrate, and wherein each of the first bladder and the second bladder includes a bellows that controls a direction of inflation of the bladder; drying the slurry to remove at least a portion of the carrier material to form an infiltrated CMC comprising the solid particles; and deflating at least one bladder of the plurality of bladders. 2. The method of claim 1 , wherein inflating the plurality of bladders urges the slurry into at least one inner space of the CMC substrate. 3. The method of claim 1 , wherein inflating the plurality of bladders comprises: at least partially inflating one or more first bladders; and after at least partially inflating one or more first bladders, at least partially inflating one or more second bladders. 4. The method of claim 1 , wherein inflating the plurality of bladders comprises simultaneously inflating the plurality of bladders. 5. The method of claim 1 , wherein drying the slurry further comprises increasing a pressure of the at least one bladder of the plurality of bladders. 6. The method of claim 1 , wherein drying the slurry further comprises decreasing a pressure of the at least one bladder of the plurality of bladders. 7. The method of claim 1 , wherein at least one bladder of the plurality of bladders comprises a release agent on at least a portion of the surface of the bladder, wherein deflating the at least one bladder further comprises heating the mold body to at least partially melt or soften a release agent. 8. The method of claim 1 , wherein infiltrating the CMC substrate with the slurry further comprises drawing a vacuum in the mold body. 9. The method of claim 1 , wherein the CMC substrate defines an interior recess defining multiple surfaces, and wherein the method further comprises: imparting a bladder cast finished to each surface of the multiple surface of the interior recess of the CMC component by inflating the first bladder to contact each surface of the multiple surfaces of the interior recess of the CMC substrate. 10. The method of claim 9 , wherein the CMC substrate is a turbine engine seal segment having a base and a plurality of tips, and wherein the method further comprises: contacting an interior surface of each of the plurality of tips with the first bladder of the plurality of bladders, and contacting the base with the second bladder of the plurality of bladders. 11. The method of claim 10 , wherein the first bladder of the plurality of bladders defines a rectangular prism shape. 12. A method comprising: infiltrating a ceramic matrix composite (CMC) substrate positioned in a cavity of a mold body with a slurry, wherein the CMC substrate is a turbine engine seal segment having a base and a plurality of tips, wherein the CMC substrate comprises reinforcement material defining inner spaces, wherein the slurry comprises solid particles and a carrier material, and wherein the slurry at least partially fills at least a portion of the inner spaces of the CMC substrate; inflating a plurality of bladders coupled to the mold body and disposed within the cavity, wherein a surface of a first bladder of the plurality of bladders in an inflated configuration contacts an interior surface of each of the plurality of tips of the CMC substrate, and a surface of a second bladder of the plurality of bladders contacts the base of the CMC substrate, wherein each bladder of the plurality of bladders, when in the inflated configuration, is shaped to define a selected mold shape of the CMC substrate; drying the slurry to remove at least a portion of the carrier material to form an infiltrated CMC comprising the solid particles; and deflating at least one bladder of the plurality of bladders. 13. A method comprising: infiltrating a ceramic matrix composite (CMC) substrate positioned in a cavity of a mold body with a slurry, wherein the CMC substrate comprises reinforcement material defining inner spaces, wherein the slurry comprises solid particles and a carrier material, wherein the slurry at least partially fills at least a portion of the inner spaces of the CMC substrate; inflating a plurality of bladders coupled to the mold body and disposed within the cavity, wherein a surface of a first bladder of the plurality of bladders in an inflated configuration contacts a first surface of the CMC substrate, and a surface of a second bladder of the plurality of bladders contacts a second, opposite surface of the CMC substrate, wherein each bladder of the plurality of bladders, when in the inflated configuration, is shaped to define a selected mold shape of the CMC substrate, and wherein the first bladder of the plurality of bladders defines a rectangular prism shape; drying the slurry to remove at least a portion of the carrier material to form an infiltrated CMC comprising the solid particles; and deflating at least one bladder of the plurality of bladders.