Shrouded turbine blade with cut corner

The invention claimed is: 1. A method comprising: determining a vibration characteristic of a shrouded turbine blade that comprises an outer shroud attached to an outer end of an airfoil, wherein the outer shroud comprises: a first mate face having a first z-lock shape; a second mate face opposite the first mate face and having a second z-lock shape that is complementary to the first z-lock shape; and a leading edge; and machining a cut on a corner of the outer shroud extending from the leading edge to the second mate face after determining the vibration characteristic, wherein the cut shortens a leading edge overhang and a knife edge seal that extends radially outward from the outer shroud. 2. The method of claim 1 , wherein the vibration characteristic of the shrouded turbine blade is determined experimentally. 3. The method of claim 1 , wherein the vibration characteristic of the shrouded turbine blade is determined analytically. 4. The method of claim 1 , wherein determining the vibration characteristic of the shrouded turbine blade comprises determining whether the shrouded turbine blade has a vibration mode shape with an anti-node at the corner. 5. The method of claim 1 , wherein the corner is cut substantially adjacent a curved fillet connecting the airfoil to the shroud. 6. The method of claim 1 , wherein machining the cut on the corner of the shrouded turbine blade comprises machining the shrouded turbine blade after it has been physically formed. 7. A shrouded turbine blade comprising: an airfoil having an outer end; and an outer shroud attached to the outer end, wherein the outer shroud comprises: a first mate face having a first z-lock shape; a second mate face opposite the first mate face and having a second z-lock shape that is complementary to the first z-lock shape; a leading edge; and a machined cut on a corner of the outer shroud extending from the leading edge to the second mate face, wherein the machined cut shortens a leading edge overhang and a knife edge seal that extends radially outward from the outer shroud. 8. The shrouded turbine blade of claim 7 , wherein the first z-lock shape of the first mate face is not complimentary to the machined cut. 9. The shrouded turbine blade of claim 7 , wherein the machined cut is substantially adjacent a curved fillet connecting the airfoil to the outer shroud. 10. The shrouded turbine blade of claim 7 , wherein the machined cut is a substantially straight and diagonal cut. 11. A shrouded turbine blade comprising: an airfoil having an airfoil leading edge; an outer shroud attached to an outer end of the airfoil, wherein the outer shroud comprises: a first mate face; a second mate face opposite the first mate face; an outer shroud leading edge positioned axially forward of the airfoil leading edge; and a diagonal edge of the outer shroud extending from the outer shroud leading edge to the second mate face, wherein the diagonal edge connects to the second mate face axially aft of the airfoil leading edge; and a knife edge seal that extends radially outward from the outer shroud between the first mate face and the diagonal edge. 12. The shrouded turbine blade of claim 11 , wherein the first mate face is not complimentary to the diagonal edge. 13. The shrouded turbine blade of claim 11 , wherein the diagonal edge is substantially adjacent a curved fillet connecting the airfoil to the outer shroud. 14. The shrouded turbine blade of claim 11 , wherein the diagonal edge is a substantially straight and diagonal machined cut. 15. An industrial gas turbine engine comprising: a low pressure turbine section comprising: the shrouded turbine blade of claim 11 , wherein the shrouded turbine blade is a first shrouded turbine blade and the outer shroud is a first outer shroud; and a second shrouded turbine blade comprising a second outer shroud having a third mate face abutting the second mate face; and a power turbine section positioned aft of the low pressure turbine section.