Patent ID: 7685840

Claim:
A method of minimizing distortion in a glass sheet comprising: forming a glass ribbon in a glass manufacturing process; separating a glass sheet from the glass ribbon, the glass sheet having a top edge, a bottom edge and two side edges intersecting the top and bottom edges; measuring stress along each edge of glass sheet to produce stress data for each edge and identifying an maximum absolute value of stress for each edge; fitting curves to the stress data for the top and bottom edges; subtracting the fitted curves, respectively, from the stress data for the top and bottom edges to produce a difference curve for the top and bottom edges, and identifying the maximum absolute values of the top and bottom edge difference curves; obtaining the absolute value of the amplitude range of the top and bottom edge difference curves; deconvolving the top and bottom difference curves to obtain a plurality of Fourier amplitude terms for the top and bottom edge difference curves; cutting the glass sheet into sub-sheets, flattening each sub-sheet and measuring an in-plane distortion for each sub-sheet; using the maximum absolute value of stress for each edge, the maximum absolute values of the top and bottom edge difference curves, the absolute value of the amplitude range of the top and bottom edge difference curves and the plurality of Fourier amplitude terms to correlate the stress in the glass sheet to the in-plane distortion of the sub-sheets; using the correlation to predict in-plane distortion in sub-sheets of a subsequent glass sheet separated from the ribbon.