A conveying device (14) for a glass film (G) includes: a first support (21) configured to support a first portion (Gc) of the glass film (G) having been cut; a second support (22) configured to support a second portion (Gd) of the glass film (G) having been cut; and an opening (23) formed at a position between the first support (21) and the second support (22) and below a laser irradiation apparatus (19). A cutting step for the glass film (G) includes deforming the glass film (G) so as to be convex downward through the opening (23), and radiating a laser beam (LB) from the laser irradiation apparatus (19) to a position which is within a range of the opening (23), and which is prevented from coinciding with a top (GT) of the glass film (G).

A method is provided for aligning scoring tools and for scoring glass, in particular thin glass, along predetermined scoring lines in preparation for breaking along the score. Glass substrates, in particular thin glass substrates, produced by such method are also provided. The method includes the determination of the actual orientation of the cutting edge of the scoring tool and aligning of the cutting edge to a target orientation of the cutting edge.

A method is provided for scoring glasses. The method includes the steps of generating a deep crack in the glass along an intended separation line by exerting pressure onto the glass surface using a rigid scoring tool, wherein the scoring tool, by being pressed against the glass surface and due to the advancement force while introducing the deep crack generates a zone of elastic strain in the glass in a direction along the glass surface and perpendicular to the separation line, which extends in an arc in the plane defined by the separation line perpendicular to the glass surface such that one leg of the arc is located close to the contact point of the scoring tool on the glass surface and another leg is located inside the glass. The arc being open towards the advancement/advancement direction of the scoring tool.

A method is provided for aligning scoring tools and for scoring glass, in particular thin glass, along predetermined scoring lines in preparation for breaking along the score. Glass substrates, in particular thin glass substrates, produced by such method are also provided. The method includes the determination of the actual orientation of the cutting edge of the scoring tool and aligning of the cutting edge to a target orientation of the cutting edge.

The method includes tracing a score line on the surface of the glass, using a scoring tool, and breaking out using a local pressure system applied on the opposite face and opposite the score line, the local pressure system being moved and pressed along the score line on the opposite face.

A method of forming a glass article includes steps of: providing a glass substrate sheet, forming a first array of first damage regions, forming a second array of second damage regions which define a plurality of portions, wherein the second array of second damage regions define one or more interrupted zones. The interrupted zones may have a largest dimension of about 10 microns or greater. The method further includes steps of etching the glass substrate and singulating the plurality of portions from the glass substrate sheet.

A method of forming a glass article includes steps of: providing a glass substrate sheet, forming a first array of first damage regions, forming a second array of second damage regions which define a plurality of portions, wherein the second array of second damage regions define one or more interrupted zones. The interrupted zones may have a largest dimension of about 10 microns or greater. The method further includes steps of etching the glass substrate and singulating the plurality of portions from the glass substrate sheet.

A method of forming a glass article includes steps of: providing a glass substrate sheet, forming a first array of first damage regions, forming a second array of second damage regions which define a plurality of portions, wherein the second array of second damage regions define one or more interrupted zones. The interrupted zones may have a largest dimension of about 10 microns or greater. The method further includes steps of etching the glass substrate and singulating the plurality of portions from the glass substrate sheet.

A method of forming a glass article includes steps of: providing a glass substrate sheet, forming a first array of first damage regions, forming a second array of second damage regions which define a plurality of portions, wherein the second array of second damage regions define one or more interrupted zones. The interrupted zones may have a largest dimension of about 10 microns or greater. The method further includes steps of etching the glass substrate and singulating the plurality of portions from the glass substrate sheet.

A method for separating a thin glass, in which method the thin glass is progressively heated along a path which forms a parting line, wherein the heating of the glass is realized by way of the energy of at least one energy source within an area of action of the energy source on the thin glass, and, by way of a temperature gradient of the glass heated by way of the at least one energy source in relation to the surrounding glass, a mechanical stress is generated in the glass, by way of which mechanical stress, a crack propagates, following the mechanical stress, along the parting line.