Flexural pivot assembly with shaped blade sections

What is claimed is: 1. A flexural pivot, comprising: a first housing; a second housing; and a plurality of blades, wherein each of the blades intersect one another along a center axis, wherein a first end of each of the blades is joined to an interior of the first housing, wherein a second end of each of the blades is joined to an interior of the second housing, wherein a first dimension of each of the blades at a first distance from the center axis is greater than the first dimension at a second distance from the center axis, wherein the first dimension at the second distance from the center axis is a minimum blade thickness, wherein for a first blade half of each blade the second distance is between 60-80% of a distance from the center axis to an interior of the first housing, and wherein for a second blade half of each blade the second distance is between 60-80% of a distance from the center axis to an interior of the second housing. 2. The flexural pivot of claim 1 , wherein the first dimension of a second blade at the second distance from the center axis is the same as the first dimension of the first blade at the second distance from the center axis. 3. The flexural pivot of claim 1 , wherein all of the blades are axially symmetric. 4. The flexural pivot of claim 1 , wherein surfaces of the blades between the first distance from the center axis and the second distance from the center axis follow a first radius of curvature. 5. The flexural pivot of claim 1 , wherein the surfaces of the blades between the first distance from the center axis and the second distance from the center axis are straight. 6. The flexural pivot of claim 1 , wherein a width dimension of the blades is parallel to the center axis, wherein the first dimension of the blades is a thickness dimension, and wherein a length dimension of the blades is between the first and second ends of the blades. 7. The flexural pivot of claim 1 , wherein a thickness of each of the blades between the first distance from the center axis and the second distance from the center axis varies so as to form contours that follow parabolic curves. 8. A flexural pivot, comprising: a first housing; a second housing; and a plurality of blades, wherein each of the blades intersect one another along a center axis, wherein a first end of each of the blades is joined to an interior of the first housing, wherein a second end of each of the blades is joined to an interior of the second housing, wherein a first dimension of each of the blades at a first distance from the center axis is greater than the first dimension at a second distance from the center axis, wherein for a first blade half of each blade included in the plurality of blades the second distance is between 60-70% of a distance from the center axis to an interior of the first housing, and wherein for a second blade half of each blade the second distance is between 60-70% of a distance from the center axis to an interior of the second housing. 9. The flexural pivot of claim 8 , wherein the first dimension of a second blade at the second distance from the center axis is the same as the first dimension of the first blade at the second distance from the center axis. 10. The flexural pivot of claim 8 , wherein all of the blades are axially symmetric. 11. A pivot assembly, comprising: a flexural pivot, the flexural pivot including: a first housing; a second housing; and a plurality of blades, wherein each blade is joined to every other blade along a centerline of the blade, wherein the centerline of each of the blades corresponds to a center axis, wherein a first end of each blade is interconnected to the first housing at an interior surface of the first housing, wherein a second end of each blade is interconnected to the second housing at an interior surface of the second housing, wherein each blade has a first thickness at a first distance from the centerline of the blade, wherein each blade has a second thickness at a second distance from the centerline of the blade, wherein the second thickness is a minimum thickness, wherein the first distance is less than the second distance, wherein, for the first end of each blade, the second distance is between 60% and 80% of a distance from the center axis to the interior surface of the first housing, and wherein, for the second end of each blade, the second distance is between 60% and 80% of a distance from the center axis to an interior surface of the second housing; a base assembly, wherein the first housing is fixed to the base assembly; and a pivoted assembly, wherein the second housing is fixed to the pivoted assembly. 12. The pivot assembly of claim 11 , wherein the first distance is from 60% to 70% of a distance from the center axis to a respective end of the blade. 13. The pivot assembly of claim 11 , wherein each blade has the first thickness at a third distance from the centerline of the blade. 14. The pivot assembly of claim 13 , wherein the first thickness is a minimum thickness. 15. The pivot assembly of claim 14 , wherein the second thickness is greater than the first thickness, and wherein the second distance is between the first distance and the third distance. 16. The pivot assembly of claim 15 , wherein the each of the blades is axially symmetric. 17. The pivot assembly of claim 16 , wherein a surface of each of the blades has a constant radius portion. 18. The pivot assembly of claim 16 , wherein a surface of each of the blades has a flat section and a curved section. 19. The pivot assembly of claim 11 , wherein the flexural pivot is a monolithic structure. 20. A method of for providing a flexural pivot, comprising: providing a single block of material; machining components from the single block of material, wherein the components include: a first housing; a second housing; and a plurality of blades, wherein each of the blades intersect one another along a center axis, wherein a first end of each of the blades is joined to an interior of the first housing, wherein a second end of each of the blades is joined to an interior of the second housing, wherein a first dimension of each of the blades at a first distance from the center axis is greater than the first dimension at a second distance from the center axis, wherein the first dimension at the second distance from the center axis is a minimum blade thickness, wherein for a first blade half of each blade the second distance is between 60-70% of a distance from the center axis to an interior of the first housing, and wherein for a second blade half of each blade the second distance is between 60-70% of a distance from the center axis to an interior of the second housing.