Mold tools with anisotropic thermal properties and aligned carbon-reinforced thermoplastic fibres

What is claimed is: 1. An apparatus, comprising: a mold configured to manufacture a composite structure at a heated temperature, wherein the mold comprises: a first mold tool configured to mold a first portion of the composite structure, wherein the first mold tool comprises: a plurality of strands of a fiber-reinforced thermoplastic material, wherein the fiber-reinforced thermoplastic material comprises a thermoplastic embedded with a plurality of reinforcement fibers, wherein the plurality of reinforcement fibers is aligned within each strand of the plurality of strands; and an anisotropic thermal expansion property, wherein the anisotropic thermal expansion property is based on an orientation of the plurality of reinforcement fibers within the first mold tool; and a second mold tool configured to mold a second portion of the composite structure. 2. The apparatus of claim 1 , wherein the first mold tool comprises an inner mold line tool, and wherein the second mold tool comprises an outer mold line tool. 3. The apparatus of claim 2 , wherein the inner mold line tool comprises: a first coefficient of thermal expansion for a length dimension of the inner mold line tool; and a second coefficient of thermal expansion for a width dimension of the inner mold line tool, wherein the second coefficient of thermal expansion is higher than the first coefficient of thermal expansion. 4. The apparatus of claim 3 , wherein the outer mold line tool comprises an isotropic material, wherein the isotropic material comprises a third coefficient of thermal expansion, wherein the third coefficient of thermal expansion is lower than the second coefficient of thermal expansion. 5. The apparatus of claim 2 , wherein the composite structure comprises a spar for an aircraft. 6. The apparatus of claim 5 , wherein a width dimension of the inner mold line tool comprises a larger coefficient of thermal expansion than a width dimension of the outer mold line tool. 7. The apparatus of claim 6 , wherein the larger coefficient of thermal expansion is configured to cause the width dimension of the inner mold line tool to thermally expand at a faster rate than the width dimension of the outer mold line tool, wherein thermal expansion of the inner mold line tool and the outer mold line tool at different rates is configured to exert a compressive force on the spar. 8. The apparatus of claim 6 , wherein the inner mold line tool is configured to thermally contract at a reduced temperature, wherein thermal contraction of the inner mold line tool is configured to release the inner mold line tool from the spar. 9. The apparatus of claim 1 , wherein the plurality of reinforcement fibers comprises carbon fibers, graphite fibers, or glass fibers. 10. An apparatus, comprising: a mold configured to manufacture a composite structure at a heated temperature, wherein the mold comprises: a first mold tool configured to mold a first portion of the composite structure, wherein the first mold tool comprises: a plurality of strands of a fiber-reinforced thermoplastic material, wherein the fiber-reinforced thermoplastic material comprises a thermoplastic embedded with a plurality of reinforcement fibers, wherein the plurality of reinforcement fibers is aligned within each strand of the plurality of strands; and an anisotropic thermal expansion property, wherein the anisotropic thermal expansion property is based on an orientation of the plurality of reinforcement fibers within the first mold tool; and a second mold tool configured to mold a second portion of the composite structure; wherein a coefficient of thermal expansion for a width dimension of the second mold line tool is lower than the coefficient of thermal expansion for the width dimension of the first mold line tool. 11. The apparatus of claim 10 , wherein the first mold tool comprises an inner mold line tool, and wherein the second mold tool comprises an outer mold line tool. 12. The apparatus of claim 11 , wherein the inner mold line tool comprises: a first coefficient of thermal expansion for a length dimension of the inner mold line tool; and a second coefficient of thermal expansion for a width dimension of the inner mold line tool; wherein the second coefficient of thermal expansion is higher than the first coefficient of thermal expansion. 13. The apparatus of claim 12 , wherein the outer mold line tool comprises an isotropic material, wherein the isotropic material comprises a third coefficient of thermal expansion, wherein the third coefficient of thermal expansion is lower than the second coefficient of thermal expansion. 14. The apparatus of claim 11 , wherein the composite structure comprises a spar for an aircraft. 15. The apparatus of claim 14 , wherein a width dimension of the inner mold line tool comprises a larger coefficient of thermal expansion than a width dimension of the outer mold line tool. 16. The apparatus of claim 15 , wherein the larger coefficient of thermal expansion is configured to cause the width dimension of the inner mold line tool to thermally expand at a faster rate than the width dimension of the outer mold line tool, wherein thermal expansion of the inner mold line tool and the outer mold line tool at different rates is configured to exert a compressive force on the spar. 17. The apparatus of claim 15 , wherein the inner mold line tool is configured to thermally contract at a reduced temperature, wherein thermal contraction of the inner mold line tool is configured to release the inner mold line tool from the spar. 18. The apparatus of claim 10 , wherein the plurality of reinforcement fibers comprises carbon fibers, graphite fibers, or glass fibers. 19. An apparatus, comprising: a mold configured to manufacture a composite structure at a heated temperature, wherein the mold comprises: a first mold tool configured to mold a first portion of the composite structure, wherein the first mold tool comprises: a plurality of strands of a fiber-reinforced thermoplastic material, wherein the fiber-reinforced thermoplastic material comprises a thermoplastic embedded with a plurality of reinforcement fibers, wherein the plurality of reinforcement fibers is aligned within each strand of the plurality of strands; and an anisotropic thermal expansion property, wherein the anisotropic thermal expansion property is based on an orientation of the plurality of reinforcement fibers within the first mold tool; and a second mold tool configured to mold a second portion of the composite structure; wherein the first mold tool comprises an inner mold line tool for shaping an inner mold line of the composite structure and the second mold tool comprises an outer mold line tool for shaping an outer mold line of the composite structure opposite the inner mold line of the composite structure; wherein the inner mold line tool comprises a first coefficient of thermal expansion for a length dimension of the inner mold line tool and a second coefficient of thermal expansion for a width dimension of the inner mold line tool and the first coefficient of thermal expansion is lower than the second coefficient of thermal expansion; and wherein a coefficient of thermal expansion for a width dimension of the second mold line tool is lower than the coefficient of thermal expansion for the width dimension of the first mold line tool. 20. The apparatus of claim 19 , wherein the inner mold line tool is configured to thermally contract at a reduced temperature, wherein thermal contraction