Turbine shroud having ceramic matrix composite seal segment

What is claimed is: 1. A segmented turbine shroud for radially encasing a rotatable turbine in a gas turbine engine, the shroud comprising: a carrier comprising a portion defining a pin-receiving carrier bore; a ceramic matrix composite (CMC) seal segment comprising a portion defining a pin-receiving seal segment bore; and an elongated pin extending through said carrier bore and said seal segment bore, wherein said carrier portion defining said carrier bore further comprises at least one linear aperture proximate said carrier bore adapted to effect radial flexion between said carrier portion defining said carrier bore and said pin received therein during operation of the gas turbine engine, wherein said at least one linear aperture has a thickness, and wherein said at least one linear aperture proximate said carrier bore has a maximum deflection equal to the thickness of the aperture. 2. The shroud of claim 1 wherein said carrier portion comprises a plurality of linear apertures proximate said carrier bore adapted to effect radial flexion between said carrier portion defining said carrier bore and said pin received therein during operation of the gas turbine engine. 3. The shroud of claim 1 wherein said carrier bore comprises a minimum lateral cross-section dimension of at least three eighths inches. 4. The shroud of claim 1 wherein said carrier comprises a metal alloy and said at least one linear aperture proximate said carrier bore is machined into said carrier. 5. The shroud of claim 1 further comprising a static seal cover disposed over said at least one linear aperture proximate said carrier bore. 6. The shroud of claim 1 wherein said carrier portion comprises a lateral flange. 7. The shroud of claim 2 wherein said plurality of linear apertures proximate said carrier bore each have a uniform thickness. 8. The shroud of claim 2 wherein each of said plurality of linear apertures proximate said carrier bore have an aperture thickness that varies along the length of the aperture. 9. A segmented turbine shroud for radially encasing a rotatable turbine in a gas turbine engine, the shroud comprising a plurality of cartridges, one or more cartridges comprising: a carrier segment comprising a plurality of opposing portion pairs, each portion defining a pin-receiving carrier bore extending through the respective portion, each opposing portion pair being aligned to receive a single elongated pin within the opposing pin-receiving carrier bores defined thereby; a ceramic matrix composite (CMC) seal segment comprising a plurality of portions each defining a pin-receiving seal segment bore; and a plurality of elongated pins, each pin extending through each of said pair of opposing pin receiving carrier bores and one or more of said seal segment bores; wherein said carrier segment carries a single CMC seal segment by one or more of said elongated pins; wherein each of said carrier portions defining said carrier bore further comprises at least one linear aperture proximate said carrier bore, the at least one linear aperture adapted to effect radial flexion between said carrier portion defining said carrier bore and said pin received therein during operation of the gas turbine engine; wherein said carrier portion comprises a plurality of linear apertures proximate said carrier bore adapted to effect radial flexion between said carrier portion defining said carrier bore and said pin received therein during operation of the gas turbine engine; and wherein each of said plurality of linear apertures proximate said carrier bore have a maximum deflection equal to a thickness of the aperture. 10. The shroud of claim 9 wherein said plurality of linear apertures proximate said carrier bore each have a uniform thickness. 11. The shroud of claim 9 wherein each of said plurality of linear apertures proximate said carrier bore have an aperture thickness that varies along the length of the aperture. 12. The shroud of claim 9 wherein the length of said carrier bore is at least 120% of the axial dimension of said carrier portion defining said carrier bore. 13. The shroud of claim 9 wherein said carrier portion defines a carrier bore comprising a continuously curved lateral cross-section. 14. The shroud of claim 9 wherein said carrier portion defines a carrier bore having a circular lateral cross-section. 15. The shroud of claim 9 wherein said carrier bore is adapted to receive an elongated pin comprising a lateral cross-sectional dimension of at least three eighths inches. 16. The shroud of claim 9 wherein said elongated pin is hollow.