Abstract: Glass stack configurations including a carrier plate, setter plates, and glass sheets for thermal treatment of the glass sheets to form glass ceramic articles are provided. The glass stacking configurations and components described herein are selected to improve thermal uniformity throughout a glass stack during ceramming processes while maintaining or even reducing the stresses in the resultant glass ceramic article. Accordingly, the glass ceramic articles made according to the various embodiments described herein exhibit improved optical qualities and less warp than glass ceramic articles made according to conventional processes. Various embodiments of carrier plates, setter plates, parting agent compositions, and methods of stacking glass sheets are described.

Abstract: A method of dispensing quantum dot containing material in a well, the method comprising dispensing quantum dot material in a well using an ink jet, wherein the ink jet is operated with an Ohnesorge (Oh) number between 0.1 and 1 and with a Weber number of between 4 and 501.6*Oh0.4. Other methods include dispensing quantum dot containing material in a well, the method comprising dispensing quantum dot material in a well using an ink jet, immobilizing the dispensed quantum dot material by drying or curing, repeating these steps an integer N number of times until a predetermined thickness is obtained.

Abstract: Methods of strengthening the edge surfaces of a glass substrate, and particularly glass substrates contained within a display panel, are disclosed. The methods include exposing edges of the display panel to an acid solution for a time and at a temperature effective to remove no more than about 20 micrometers of glass from edge surfaces, rinsing the acid solution from the edge and applying a polymer protective coating the rinsed edge to maintain the post-etching strength of the edge surfaces. Electronics on the display panel that may be exposed to the acid solution are masked with a terminal mask prior to the etching. The edge etching may be combined with etching of a surface of the display panel/cover glass substrate.

Abstract: A method of glass edge coating includes supplying a coating material to a jetting dispenser. Droplets are jetted from a nozzle of the jetting dispenser. Beads of coating material are deposited on a perimeter edge of the glass article by arranging for the droplets to drop on the perimeter edge after falling through a standoff distance between the nozzle and the perimeter edge, whereafter each bead flows in a plurality of directions on the perimeter edge, thereby forming a coating on the perimeter edge. During the jetting, a relative motion is effected between the nozzle and the perimeter edge such that the beads are deposited at a plurality of locations along the perimeter edge.

Abstract: A process and system for applying coating materials to glass edges of various profiles. The glass edge is coated by picking up the coating material from an applicator such as, for example, a roller, through precise independent or relative control of the spatial relationship between the edge of the glass article and the applicator to achieve desirable product attributes such as coating thickness, profile, coverage areas and consistency. Such spatial relationships include the gap distance between the roller and applicator, coating thickness on the applicator, applicator and/or glass speed, and the like.

Abstract: Methods of strengthening the edge surfaces of a glass substrate, and particularly glass substrates contained within a display panel, are disclosed. The methods include exposing edges of the display panel to an acid solution for a time and at a temperature effective to remove no more than about 20 micrometers of glass from edge surfaces, rinsing the acid solution from the edge and applying a polymer protective coating the rinsed edge to maintain the post-etching strength of the edge surfaces. Electronics on the display panel that may be exposed to the acid solution are masked with a terminal mask prior to the etching. The edge etching may be combined with etching of a surface of the display panel/cover glass substrate.

Abstract: A method of glass edge coating includes supplying a coating material to a jetting dispenser. Droplets are jetted from a nozzle of the jetting dispenser. Beads of coating material are deposited on a perimeter edge of the glass article by arranging for the droplets to drop on the perimeter edge after falling through a standoff distance between the nozzle and the perimeter edge, whereafter each bead flows in a plurality of directions on the perimeter edge, thereby forming a coating on the perimeter edge. During the jetting, a relative motion is effected between the nozzle and the perimeter edge such that the beads are deposited at a plurality of locations along the perimeter edge.