Segmented layer carbon fiber preform

What is claimed is: 1. A preform for a carbon-carbon composite, the preform comprising: a plurality of fibrous layers stacked and needled-punched together to form the preform in the shape of an annulus, the annulus comprising: an inner radial section that defines an inner preform diameter; and an outer radial section that defines an outer preform diameter; wherein each fibrous layer of the plurality of fibrous layers comprises a respective plurality of fabric segments, the respective plurality of fabric segments comprising at least one of carbon fibers or carbon-precursor fibers, wherein at least one fibrous layer of the plurality of fibrous layers comprises: a first fabric segment forming at least a portion of the inner radial section, the first fabric segment defining a first segment bisector and a first fiber orientation angle; and a second fabric segment forming at least a portion of the outer radial section, the second fabric segment defining a second segment bisector and a second fiber orientation angle, wherein the first and second segment bisectors are radially aligned within the at least one fibrous layer, and wherein the first fiber orientation angle is different than the second fiber orientation angle. 2. The preform of claim 1 , wherein either the first fiber orientation or the second fiber orientation angle is about negative (−) 10 degrees to about −80 degrees or about positive (+) 10 degrees to about +80 degrees. 3. The preform of claim 2 , wherein either the first fiber orientation or the second fiber orientation angle is about +45 degrees or about −45 degrees. 4. The preform of claim 2 , wherein either the second fiber orientation angle or the first fiber orientation angle is about 0 degrees or about 90 degrees. 5. The preform of claim 1 , wherein the first fabric segment and the second fabric segment each define an arc angle of about 65 degrees to about 70 degrees. 6. The preform of claim 1 , wherein the plurality of fibrous layers are stacked and needled-punched together in a helix, wherein each fibrous layer of the plurality of fibrous layers completes about 0.9 to about 1.2 revolutions of the helix. 7. The preform of claim 1 , wherein the first fabric segment defines a first radial length and the second fabric segment defines a second radial length, wherein a ratio of the first radial length to the second radial length is about 0.3 to about 0.8. 8. The preform of claim 1 , wherein the first fabric segment defines a first neighboring edge and the second fabric segment defines a second neighboring edge that abuts the first neighboring edge, wherein the first neighboring edge and the second neighboring edge have complementing geometric interlocking structures. 9. The preform of claim 1 , wherein the at least one fibrous layer comprises a first fibrous layer, the plurality of fibrous layers further comprising a second fibrous layer comprising: a third fabric segment forming at least a portion of the inner radial section, the third fabric segment defining a third segment bisector and a third fiber orientation angle; and a fourth fabric segment forming at least a portion of the outer radial section, the fourth fabric segment defining a fourth segment bisector and a fourth fiber orientation angle, wherein the third and fourth segment bisectors are radially aligned within the second fibrous layer, and wherein the third fiber orientation angle is different than the fourth fiber orientation angle. 10. The preform of claim 9 , wherein the third fiber orientation angle is different than the first fiber orientation angle. 11. The preform of claim 10 , wherein the third fiber orientation angle is offset by about 90 degrees to the first fiber orientation angle. 12. The preform of claim 9 , wherein the first fabric segment defines a first radial length, the second fabric segment defines a second radial length, the third fabric segment defines a third radial length, and the fourth fabric segment defines a fourth radial length, wherein a ratio of the first radial length to the second radial length is different than a ratio of the third radial length to the fourth radial length. 13. The preform of claim 12 , wherein an absolute difference between the first radial length and the third radial length is greater than zero and less than about 20 millimeters (mm). 14. The preform of claim 9 , wherein the first fibrous layer defines a first plurality of butt joints between adjacent fabric segments of the plurality of fabric segments, the second fibrous layer defines a second plurality of butt joints between adjacent fabric segments of the plurality of fabric segments, and wherein the first and second fibrous layers are stacked such that the first plurality of butt joints and the second plurality of butt joints do not radially overlap. 15. The preform of claim 1 , wherein each fabric segment of the plurality of fabric segments comprise a duplex fabric comprising unidirectionally aligned fiber and web fibers. 16. A method comprising: forming preform for a carbon-carbon composite, wherein forming the preform comprises: stacking and needle-punching a plurality of fabric segments to produce a plurality of fibrous layers needle-punched together to form the preform in the shape of an annulus, the annulus comprising: an inner radial section that defines an inner preform diameter; and an outer radial section that defines an outer preform diameter; wherein each fibrous layer of the plurality of fibrous layers comprises a respective plurality of fabric segments comprising at least one of carbon fibers or carbon-precursor fibers, wherein at least one fibrous layer of the plurality of fibrous layers comprises: a first fabric segment forming at least a portion of the inner radial section, the first fabric segment defining a first segment bisector and a first fiber orientation angle; and a second fabric segment forming at least a portion of the outer radial section, the second fabric segment defining a second segment bisector and a second fiber orientation angle, wherein the first and second segment bisectors are radially aligned within the at least one fibrous layer, and wherein the first fiber orientation angle is different than the second fiber orientation angle. 17. The method of claim 16 , wherein either the first fiber orientation angle is about negative (−) 10 degrees to about −80 degrees or about positive (+) 10 degrees to about +80 degrees and the second fiber orientation angle is about 0 degrees or about 90 degrees. 18. The method of claim 16 , wherein stacking and needle-punching the plurality of fabric segments comprises stacking the plurality of fabric segments to form a helix, wherein each fibrous layer of the plurality of fibrous layers completes about 0.9 to about 1.2 revolutions of the helix. 19. The method of claim 16 , wherein stacking and needle-punching a plurality of fabric segments comprises: forming a first fibrous layer comprises comprising the first fabric segment and the second fabric segment; and forming a second fibrous layer on the first fibrous layer, wherein the second fibrous layer comprises: a third fabric segment forming at least a portion of the inner radial section, the third fabric segment defining a third segment bisector and a third fiber orientation angle; and a fourth fabric segment forming at least a portion of the outer radial section, the fourth fabric segment defining a fourth segment bisector and a fourth fiber orientation angle, wherein the third and fourth segment bisectors are radially aligned