Patent ID: 7906256
Filing Date: 2011-03-15
Classification: G03F,Y02P

Abstract:
1. A method of recycling a large-sized photomask substrate, comprising the steps of: (i) removing a patterned light-shielding film from a used large-sized photomask substrate to provide a large-sized photomask-forming glass substrate stock to be regenerated having a diagonal length of at least 500 mm and a thickness of at least 3 mm; (ii) resurfacing the glass substrate stock using a processing tool of sand blasting; (iii) repolishing the resurfaced glass substrate stock to yield a regenerated glass substrate stock; (iv) applying a light-shielding film onto the regenerated glass substrate stock to yield a regenerated large-sized photomask-forming blank; and (v) processing the light-shielding film of the blank into a pattern corresponding to a desired exposure of a mother glass, yielding a regenerated photomask substrate, wherein the regenerated photomask substrate is suitable for use in a mother glass exposure process including attaching the regenerated photomask substrate having opposed sides to an exposure apparatus through support of opposed side edges, disposing, adjacent to the regenerated photomask substrate, a mother glass serving as an array side or color filter side substrate in a TFT liquid crystal panel, and irradiating light from the exposure apparatus to the mother glass through the regenerated photomask substrate, and said step (ii) of resurfacing by sand blasting comprises the step of processing the large-sized photomask-forming glass substrate stock having front and back surfaces with the diagonal length of at least 500 mm and the thickness of at least 3 mm, by removing therefrom (1) a flattening removal quantity of material based on height data of a flatness and a parallelism of the front and back surfaces of the large-sized glass substrate stock in a vertical attitude, plus a deformation-corrective removal quantity of material, through the sand blasting, the deformation-corrective removal quantity is calculated from (2) a deflection of the glass substrate stock by its own weight in a horizontal attitude, calculated from the thickness and size of the large-sized glass substrate stock, and a support position when the regenerated photomask substrate is horizontally supported, (3) a deformation of the regenerated photomask substrate caused by a photomask substrate support when the regenerated photomask substrate is attached to the exposure apparatus, and (4) an accuracy distortion of a platen for supporting the mother glass to be exposed, and the regenerated photomask substrate resulting from the large-sized glass substrate stock has such an arcuate shape in cross section that a surface to be opposed to the mother glass is concave when held vertically, and reduces a proximity gap variation between the mother glass and the regenerated photomask substrate which is held horizontally when the opposed side edges of the regenerated photomask substrate are supported in a exposure apparatus.