Tensile test fixture for quick testing of materials with low transverse strength

What is claimed is: 1. A tensile test fixture for testing materials with low transverse strength, the test fixture comprising: a bearing plate comprising a slot extending from an edge of the bearing plate to the center of the bearing plate and a T-plate, wherein the bearing plate and the T-plate are spaced apart from each other by at least two threaded rods; and a lock plate mounted to a surface of the bearing plate and comprising an aperture defined therethrough; wherein a test specimen is operable to be received through a central aperture defined by the slot in the bearing plate and the aperture in the lock plate. 2. The tensile test fixture of claim 1 , wherein the bearing plate and the T-plate each comprise at least two threaded apertures operable to receive a corresponding number of the threaded rods, and wherein the threaded rods can be rotated to adjust the distance between the bearing plate and the T-plate. 3. The tensile test fixture of claim 2 , wherein the bearing plate and the T-plate are each square-shaped and each comprise four threaded apertures located proximate to the corners of the plates. 4. The tensile test fixture of claim 1 , wherein the lock plate is a two-part plate and each half of the two-part lock plate comprises half of the lock plate aperture, and wherein the lock plate is operable to be received around the test specimen. 5. The tensile test fixture of claim 4 , wherein the lock plate is mounted on a distal surface of the bearing plate. 6. The tensile test fixture of claim 4 , wherein the aperture of the lock plate is operable to correspond to the size and the shape of the test specimen. 7. The tensile test fixture of claim 6 , wherein the aperture of the lock plate is round. 8. A method of to tensile testing materials with low transverse strength, the method comprising: providing an upper fixture and a lower fixture, each fixture comprising: a bearing plate comprising a slot extending from an edge of the bearing plate to the center of the bearing plate and a T-plate, wherein the bearing plate and the T-plate are spaced apart from each other by one or more threaded rods; and a lock plate mounted to a surface of the bearing plate and comprising an aperture defined therethrough; orienting the upper fixture and the lower fixture in opposite directions about a centerline between the two, with the bearing plates of the upper fixture and the lower fixture proximate the centerline and the T-plates of the upper fixture and the lower fixture distal the centerline; loading the upper fixture and the lower fixture into a universal testing machine; inserting a test specimen comprising an anchor at each end into the slots in the edges of the bearing plates of the upper fixture and the lower fixture; securing the lock plates of the upper fixture and the lower fixture around the test specimen received in the slots in the edges of the bearing plates of the upper fixture and the lower fixture; aligning the test specimen; tensile testing the aligned test specimen in the universal testing machine. 9. The method of claim 8 , wherein the bearing plates and the T-plates of the upper and lower fixture each comprise one or more threaded apertures operable to receive a corresponding number of the threaded rods, and wherein the threaded rods can be rotated to adjust the distance between the bearing plates and the T-plates. 10. The method of claim 8 , wherein the aperture of the lock plate is operable to correspond to the size and the shape of the test specimen.