A method for the production of glass ribbon portions is provided that includes: transporting a glass ribbon at a velocity v.sub.1, wherein the velocity v.sub.1 is dependent on the predetermined glass thickness (d.sub.1), with the application of a tensile stress parallel to the edges of the glass ribbon, in a plane E.sub.1, and cooling the glass ribbon at a cooling rate that is dependent on the predetermined glass thickness (d.sub.1), inserting a score on the surface of the glass ribbon in at least one edge area by scoring the glass surface with a scoring tool, wherein the score has an angle a to the transport direction of the glass ribbon, deflecting the glass ribbon in a plane E.sub.2 to generate a bending stress and separating a glass ribbon portion with the formation of edges by breaking the glass ribbon on the extension of the score running transversely to the glass ribbon.

Method and apparatus for removing a peripheral portion of a glass sheet. The glass sheet is placed in a predetermined position. A score line is formed on a major surface of the glass sheet. The score line demarcates a central region and a peripheral portion. A push bar is moved in a direction of a back-up bar assembly such to contact the major surface along the peripheral portion. The push bar is further moved in the direction to cause the peripheral portion to separate from the central region, and then become captured between the push bar and the back-up bar assembly. With some embodiments, the glass sheet is vertically oriented and the peripheral portion is not constrained during formation of the score line.

Method and apparatus for removing a peripheral portion of a glass sheet. The glass sheet is placed in a predetermined position. A score line is formed on a major surface of the glass sheet. The score line demarcates a central region and a peripheral portion. A push bar is moved in a direction of a back-up bar assembly such to contact the major surface along the peripheral portion. The push bar is further moved in the direction to cause the peripheral portion to separate from the central region, and then become captured between the push bar and the back-up bar assembly. With some embodiments, the glass sheet is vertically oriented and the peripheral portion is not constrained during formation of the score line.

Apparatuses and methods for heating moving continuous glass ribbons at desired lines of separation and/or for separating glass sheets from continuous glass ribbons are disclosed. An apparatus includes a translatable support portion and a heating apparatus coupled to the support portion. The heating apparatus is configured to contact the continuous glass ribbon across at least a portion of a width of the continuous glass ribbon at the desired line of separation as the support portion moves in a draw direction, thereby preferentially applying heat to a first side of the continuous glass ribbon at the desired line of separation as the continuous glass ribbon moves in the draw direction.

Provided is a manufacturing method for a thin phosphor glass plate by which a thin phosphor glass plate can be more certainly produced. A manufacturing method includes the steps of: preparing a phosphor glass base material 21 having a first principal surface 21a and a second principal surface 21b opposed to each other; placing the phosphor glass base material 21 on a stage 22 and fixing the second principal surface 21b onto the stage 22; and polishing the first principal surface 21a of the phosphor glass base material 21 with a polishing member 23 including an abrasive layer 24.

A method for separating and transporting a glass sheet from a glass ribbon includes drawing the glass ribbon along a draw path in a conveyance direction, scoring the glass ribbon with a scoring device, to produce a score line across at least a portion of a width of the glass ribbon, engaging a first edge of the glass ribbon at a first position downstream of the score line in the conveyance direction with a first robotic handling device, engaging a second edge of the glass ribbon at a second position downstream of the score line in the conveyance direction with a second robotic handling device, and synchronously moving the first robotic handling device and the second robotic handling device to bend the glass ribbon about the score line and separate the glass sheet from the glass ribbon.

A method for separating and transporting a glass sheet from a glass ribbon includes drawing the glass ribbon along a draw path in a conveyance direction, scoring the glass ribbon with a scoring device, to produce a score line across at least a portion of a width of the glass ribbon, engaging a first edge of the glass ribbon at a first position downstream of the score line in the conveyance direction with a first robotic handling device, engaging a second edge of the glass ribbon at a second position downstream of the score line in the conveyance direction with a second robotic handling device, and synchronously moving the first robotic handling device and the second robotic handling device to bend the glass ribbon about the score line and separate the glass sheet from the glass ribbon.

Provided is: a method of manufacturing plate-like members and an intermediate body for plate-like members whereby the occurrence of shape defects in the plate-like members can be prevented; and a plate-like member in which shape defects are prevented. The method includes the steps of: providing a first breaking groove 12a in a first principal surface of a base material for plate-like members, the base material having the first principal surface and a second principal surface opposed to each other, and then providing a second breaking groove 13a in the second principal surface of the base material in a direction crossing the first breaking groove 12a in plan view to form an intermediate body 11 for wavelength conversion members (plate-like members); and breaking the intermediate body 11 for wavelength conversion members into separate parts along one of the first breaking groove 12a and the second breaking groove 13a and then breaking the intermediate body 11 for wavelength conversion members into separate parts along the other breaking groove, wherein in breaking the intermediate body 11 for wavelength conversion members into separate parts along the first breaking groove 12a, the intermediate body 11 is broken into separate parts along the first breaking groove 12a by pressing the intermediate body 11 from the second principal surface 11b side, and in breaking the intermediate body 11 for wavelength conversion members into separate parts along the second breaking groove 13a, the intermediate body 11 is broken into separate parts along the second breaking groove 13a by pressing the intermediate body 11 from the first principal surface 11a side.

Provided is: a method of manufacturing plate-like members and an intermediate body for plate-like members whereby the occurrence of shape defects in the plate-like members can be prevented; and a plate-like member in which shape defects are prevented. The method includes the steps of: providing a first breaking groove 12a in a first principal surface of a base material for plate-like members, the base material having the first principal surface and a second principal surface opposed to each other, and then providing a second breaking groove 13a in the second principal surface of the base material in a direction crossing the first breaking groove 12a in plan view to form an intermediate body 11 for wavelength conversion members (plate-like members); and breaking the intermediate body 11 for wavelength conversion members into separate parts along one of the first breaking groove 12a and the second breaking groove 13a and then breaking the intermediate body 11 for wavelength conversion members into separate parts along the other breaking groove, wherein in breaking the intermediate body 11 for wavelength conversion members into separate parts along the first breaking groove 12a, the intermediate body 11 is broken into separate parts along the first breaking groove 12a by pressing the intermediate body 11 from the second principal surface 11b side, and in breaking the intermediate body 11 for wavelength conversion members into separate parts along the second breaking groove 13a, the intermediate body 11 is broken into separate parts along the second breaking groove 13a by pressing the intermediate body 11 from the first principal surface 11a side.

A method is disclosed for dividing a composite material in which a brittle material layer and a resin layer are laminated, including: irradiating the resin layer with a laser beam L1 oscillated from a CO.sub.2 laser source along scheduled dividing lines DL of the composite material to form a processing groove along the scheduled dividing lines; and irradiating the brittle material layer with a laser beam L2 oscillated from an ultrashort pulsed laser source along the scheduled dividing lines to form a processing mark along the scheduled dividing lines. In the resin removing step, in a region IS where the scheduled dividing lines intersect, the laser beam oscillated from the CO.sub.2 laser source is not irradiated multiple times, or an irradiation amount of the laser beam is decreased relative to an irradiation amount in a region other than a region where the scheduled dividing lines intersect.