Laser correction of metal deformation

The invention claimed is: 1 . A method comprising: determining a deformation comprising a departure from a specified shape of a surface of a metal article; directing a first energy beam to a first sectionally curved area of the determined deformation of the metal surface as seen in a sectional view thereof; and controlling the first energy beam to correct the deformation by a compensating thermal effect in a thickness of the metal article that reduces a curvature of the first curved area. 2 . The method of claim 1 , further comprising directing the first energy beam to scan the first sectionally curved area in a series of sets of concentric tracks, each set overlapping an adjacent set. 3 . The method of claim 1 , wherein the deformation comprises an existing bulge in the surface, and further comprising directing the first energy beam to follow a series of raster scan tracks along and parallel to a periphery of the bulge. 4 . The method of claim 3 , wherein the series of raster scan tracks heats opposite sides of the periphery effectively simultaneously. 5 . The method of claim 1 , wherein the deformation comprises an existing bulge in the surface, and further comprising directing the first energy beam to scan opposite sides of a periphery of the bulge to plastically straighten the periphery and flatten the bulge. 6 . The method of claim 1 , wherein the deformation comprises an existing bulge in the surface, and further comprising directing the first energy beam to heat first and second sectionally curved areas on respective first and second opposite peripheral sides of the bulge essentially simultaneously to plastically straighten the first and second sectionally curved areas and flatten the bulge. 7 . The method of claim 1 , wherein the deformation comprises an existing bulge in the surface, and further comprising directing the first energy beam to heat a first portion of a periphery of the bulge while simultaneously directing a second energy beam to heat a second portion of the periphery of the bulge to plastically straighten the first and second portions of the periphery and flatten the bulge. 8 . The method of claim 1 , wherein the deformation comprises existing first and second oppositely sectionally curved areas of the metal surface as seen in a sectional view thereof, and further comprising directing a second energy beam to the second sectionally curved area simultaneously with directing the first energy beam to the first sectionally curved area, using first energy parameters for the first energy beam that bends the first sectionally curved area in a first direction, and using second energy parameters for the second energy beam that bends the second sectionally curved area in an opposite direction from the first direction, straightening the first and second sectionally curved areas. 9 . The method of claim 8 , wherein the first sectionally curved area comprises a peripheral portion of a bulge on the metal surface, and the second curved surface comprises a middle portion of the bulge. 10 . The method of claim 1 , further comprising determining the deformation on a first portion of the article by a surface-imaging camera during a repair or fabrication of the article in which additive welding is used on a second portion of the article, wherein the additive welding creates the deformation by differential thermal expansion during said repair or fabrication. 11 . The method of claim 1 , further comprising determining the deformation on a first portion of the article predictively for a repair or fabrication of the article in which additive welding is used on a second portion of the article, wherein the determined deformation is prevented by the compensating thermal effect of the first energy beam on the first portion of the article. 12 . A method comprising: obtaining an image a surface of a metal article; determining from the image a deformation of the surface comprising a departure from a specified shape of the surface; and rastering a first laser beam over a first area of the deformation to correct the deformation by a compensating thermal effect in a thickness of the article. 13 . The method of claim 12 , further comprising rastering the laser beam over a second area of the deformation to heat the first and second areas of deformation essentially simultaneously to plastically correct the first and second areas of deformation essentially simultaneously. 14 . The method of claim 12 , further comprising rastering a second laser beam over a second area of the deformation simultaneously with the rastering of the first laser beam over the first area of the deformation to plastically correct the first and second areas of deformation simultaneously. 15 . A method comprising: building a metal portion of article by additive fabrication on a first portion of the article; and preventing a deformation of the article during the additive fabrication by scanning a laser beam over a second area of the article to compensate for differential thermal expansion of the article caused by the additive fabrication.