Friction stir welded aircraft structure and method

What is claimed is: 1. An aircraft control structure, comprising: a side wall; a first outer surface coupled to the side wall; a second outer surface coupled to the side wall and opposite the first outer surface: a first stiffening web extending between the first outer surface and the second outer surface, the first stiffening web extending at least partially around a first aperture formed in the first outer surface to define a first stiffening recess; a second stiffening web extending between the first outer surface and the second outer surface, the second stiffening web extending at least partially around a second aperture formed in the first outer surface or the second outer surface to define a second stiffening recess; a first skin plate sized to extend over the first stiffening recess and shaped conformally with the first aperture, wherein the first skin plate is joined to the first stiffening web at a first friction stir welded seam; and a second skin plate sized to extend over the second stiffening recess and shaped conformally with the second aperture, wherein the second skin plate is joined to the second stiffening web at a second friction stir welded seam. 2. The aircraft control structure of claim 1 , in which the first stiffening web includes a first mating surface inwardly offset from the first outer surface, and in which the first friction stir welded seam joins the first skin plate to the first mating surface of the first stiffening web. 3. The aircraft control structure of claim 2 , in which the first skin plate has a first skin plate thickness, and in which the first mating surface of the first stiffening web is spaced from the first outer surface by an offset distance substantially equal to the first skin plate thickness. 4. The aircraft control structure of claim 1 , in which each of the first friction stir welded seam and the second friction stir welded seam comprises a plurality of linear weld line segments. 5. The aircraft control structure of claim 1 , in which portions of each of the first friction stir welded seam and the second friction stir welded seam comprises a continuously non-linear weld line. 6. The aircraft control structure of claim 5 , in which each continuously non-linear weld line comprises a continuous sinusoidal wave pattern. 7. The aircraft control structure of claim 1 , further comprising first and second lugs coupled to the side wall to define an intermediate region of the side wall extending between the first and second lugs, wherein each of the first stiffening web and the second stiffening web includes at least two web segments traversing paths aligned with the intermediate region of the side wall. 8. The aircraft control structure of claim 1 , in which the second aperture is formed in the first outer surface, the aircraft control structure further comprising: a third stiffening web extending between the first outer surface and the second outer surface, the third stiffening web extending at least partially around a third aperture formed in the second outer surface to define a third stiffening recess; and a third skin plate sized to extend over the third stiffening recess and shaped conformally with the third aperture, wherein the third skin plate is joined to the third stiffening web at a third friction stir welded seam. 9. The aircraft control structure of claim 1 , in which: the second aperture is formed in the second outer surface; the first outer surface defines a first raised stiffening section adjacent the first stiffening recess; the second outer surface defines a second raised stiffening section adjacent the second stiffening recess; the first raised stiffening section spans across and defines a portion of the second stiffening recess; and the second raised stiffening section spans across and defines a portion of the first stiffening recess. 10. The aircraft control structure of claim 9 , in which the first outer surface comprises an upper aerodynamic surface of a spoiler and the second outer surface comprises a lower aerodynamic surface of the spoiler. 11. An aircraft spoiler, comprising: a side wall; an upper aerodynamic surface coupled to the side wall; a lower aerodynamic surface coupled to the side wall and opposite the upper aerodynamic surface; a first stiffening web extending between the upper aerodynamic surface and the lower aerodynamic surface, the first stiffening web extending at least partially around a first aperture formed in the upper aerodynamic surface to define a first stiffening recess, the first stiffening web including a first mating surface inwardly offset from the upper aerodynamic surface; a second stiffening web extending between the upper aerodynamic surface and the lower aerodynamic surface, the second stiffening web extending at least partially around a second aperture formed in the upper aerodynamic surface to define a second stiffening recess, the second stiffening web including a second mating surface inwardly offset from the upper aerodynamic surface; a first skin plate sized to extend over the first stiffening recess and shaped conformally with the first aperture, wherein the first skin plate is joined to the first mating surface of the first stiffening web at a first friction stir welded seam; and a second skin plate sized to extend over the second stiffening recess and shaped conformally with the second aperture, wherein the second skin plate is joined to the second mating surface of the second stiffening web at a second friction stir welded seam. 12. The aircraft spoiler of claim 11 , in which: the first skin plate has a first skin plate thickness; the second skin plate has a second skin plate thickness; the first mating surface of the first stiffening web is spaced from the upper aerodynamic surface by a first offset distance substantially equal to the first skin plate thickness; and the second mating surface of the second stiffening web is spaced from the upper aerodynamic surface by a second offset distance substantially equal to the second skin plate thickness. 13. The aircraft spoiler of claim 11 , further comprising: a third stiffening web extending between the upper aerodynamic surface and the lower aerodynamic surface, the third stiffening web extending at least partially around a third aperture formed in the lower aerodynamic surface to define a third stiffening recess, the third stiffening web including a third mating surface inwardly offset from the lower aerodynamic surface; and a third skin plate sized to extend over the third stiffening recess and shaped conformally with the third aperture, wherein the third skin plate is joined to the third mating surface of the third stiffening web at a third friction stir welded seam. 14. The aircraft spoiler of claim 11 , in which portions of each of the first friction stir welded seam and the second friction stir welded seam comprises a continuously non-linear weld line. 15. The aircraft spoiler of claim 14 , in which each continuously non-linear weld line comprises a continuous sinusoidal wave pattern. 16. The aircraft spoiler of claim 11 , further comprising first and second lugs coupled to the side wall to define an intermediate region of the side wall extending between the first and second lugs, wherein each of the first stiffening web and the second stiffening web includes at least two web segments traversing paths aligned with the intermediate region of the side wall. 17. A method of forming a monolithic aircraft structure having multiple aerodynamic surfaces, the method comprising: forming a sub-fr