Machined vane arm of a variable vane actuation system

We claim: 1. A variable vane actuation system, comprising: a vane arm with at least one vane stem contact surface and a radially outward facing surface, the at least one vane stem contact surface to contact a vane stem of a variable vane and thereby actuate the variable vane about a radially extending axis, the at least one vane stem contact surface angled relative to both the radially extending axis and the radially outward facing surface; an aperture extending through the radially outward facing surface to receive the vane stem, at least a portion of the aperture having a non-circular cross-sectional profile; and the vane arm includes at least one first radially inward facing surface and at least one second radially inward facing surface, the at least one vane stem contact surface abuts the at least one first radially inward facing surface and the at least one second radially inward facing surface. 2. The system of claim 1 , wherein the aperture comprises a first axial section and a second axial section, the first axial section having a oval-shaped cross sectional profile, the second axial section having a circular-shaped cross-sectional profile. 3. The system of claim 2 , including a tab aperture extending through the vane arm for accepting a tab on a washer. 4. The system of claim 1 , wherein the at least one vane stem contact surface comprises a first vane stem contact surface and a second vane stem contact surface, the aperture positioned between the first and second vane stem contact surfaces. 5. The system of claim 1 , wherein the at least one vane stem contact surface is a machined surface. 6. The system of claim 5 , wherein the at least one vane stem contact surface is a milled surface. 7. The system of claim 1 , wherein the vane arm is continuous radially between the at least one vane stem contact surface and the radially outward facing surface. 8. The system of claim 1 , wherein the vane arm completely fills an area extending radially from the at least one vane stem contact surface to the radially outward facing surface. 9. The system of claim 1 , wherein the first and second radially inward facing surfaces are radially stepped from each other. 10. The system of claim 1 , wherein the vane arm is configured to be received radially over the vane stem. 11. A variable vane actuation system for a gas turbine engine comprising; a variable vane assembly including a vane arm attached to a vane stem and arranged to rotate the vane stem about a radial axis, the vane arm having a machined surface to contact and rotate the vane stem; a tab aperture extending through the vane arm for accepting a tab on a washer; and the vane arm includes at least one first radially inward facing surface abuts the at least one second radially inward facing surface by at least one vane stem contact surface. 12. The variable vane actuation system of claim 11 , wherein the vane arm includes a D-shaped opening corresponding with a D-shaped portion of the vane stem. 13. The variable vane actuation system of claim 12 , wherein the washer surrounds the vane stem. 14. The variable vane actuation system of claim 13 , including: an aperture extending through a radially outward facing surface of the vane arm to receive the vane stem, a least a portion of the aperture having a non-circular cross-sectional profile, wherein the at least one vane stem contact surface actuates the variable vane about a radially extending axis, the at least one vane stem contact surface angled relative to both the radially extending axis and the radially outward facing surface. 15. A vane arm manufacturing method, comprising: machining at least one vane stem contact surface into a piece of material when providing a vane arm, the vane stem contact surface to contact a vane stem to actuate a variable vane, wherein an area extending radially from the at least one vane stem contact surface to an outwardly facing surface of the vane arm is completely filled with a material and the vane arm includes at least one first radially inward facing surface abutting at least one second radially inward facing surface by the vane stem contact surface; and establishing an aperture extending through the radially outward facing surface to receive the vane stem, a least a portion of the aperture having a non-circular cross-sectional profile, wherein the aperture comprises a first axial section and a second axial section, the first axial section having an oval-shaped cross sectional profile and the second axial section having a circular-shaped cross-sectional profile. 16. The vane arm manufacturing method of claim 15 , wherein the at least one vane stem contact surface comprises a first vane stem contact surface and a second vane stem contact surface, the aperture positioned between the first and second vane stem contact surfaces. 17. The vane arm manufacturing method of claim 16 , including a tab aperture extending through the vane arm for accepting a tab on a washer. 18. The vane arm manufacturing method of claim 15 , wherein the at least one vane stem contact surface is angled relative to both a radially extending axis and the radially outward facing surface.