GLASS SUBSTRATE COMPRISING AN EDGE WEB PORTION
A glass ribbon coated with a flexible material, the flexible coating forming a flexible web portion that extends from an edge of the glass ribbon at least one millimeter. The flexible web portion can be used to facilitate handling of the glass ribbon in a manufacturing process, and may include registration markings, or perforations, that further facilitate precise positioning of the ribbon.
This invention is directed to a thin glass substrate comprising a web portion extending beyond at least one of the edges of the glass substrate to facilitate handling and/or conveying and/or positioning the substrate.
BACKGROUNDThin glass substrates can be used in a variety of applications, including so-called “e-paper” and touch sensors. The glass for such substrates can be quite thin, typically less than about 0.3 mm. The processing of the substrates can be performed on an individual glass sheet basis, or most efficiently by conveying the substrate as a long glass ribbon wound on a roll. The method includes dispensing the ribbon from one roll, processing the dispensed portion, then winding the ribbon onto a take-up roll.
One drawback to a so-called “roll-to-roll” process is the fragility of the thin glass ribbon—mechanical contact of the ribbon during handling can lead to damage, including scratches, chipping and in the worst case, fracture. What is needed is a glass substrate, in either sheet or ribbon form, that can be safely handled without damaging the glass.
SUMMARYA glass substrate is described that includes a coating material disposed thereon that extends from at least one edge of the substrate as a web portion that facilitates handing and/or conveying of the substrate without damage. The web portion of this handling coating is preferably flexible, and can be used to hold and/or convey and/or align the glass substrate for processing in a manufacturing step without the need to directly contact interior non-coated portions of the substrate. A method for holding, conveying and/or aligning the glass ribbon is also described.
In one embodiment, a glass substrate is described comprising first and second major surfaces and first and second edges, the first and second edges separated by a width W. The first and second edges are preferably substantially parallel with each other. The glass substrate includes a flexible coating disposed over at least a portion of the first and second major surfaces, and the coating comprises web portions extending from at least one of the first or second edge a distance of at least 1 mm.
The glass substrate may be in the form of a glass ribbon, or an individual glass sheet and preferably has a thickness equal to or less than 0.3 mm. The coating also comprises a web portion extending from the first edge of the glass substrate a distance of at least 1 mm and a web portion extending from the second edge a distance of at least 1 mm. The flexible coating may coat only a portion of either or both of the first and second major surfaces, or the flexible coating may extend across the entire width W of the glass substrate on either one or the other, or both of the major surfaces of the substrate.
The web portion extending from the at least one of the first or second edge of the glass substrate may comprise perforations for engaging with a sprocket or other toothed member. The toothed member may instead be a track that engages with the web portion.
A surface of the flexible coating that coats at least a portion of the first major surface of the glass substrate may include a non-planar shape complimentary to a non-planar shape of a surface of the flexible coating that coats at least a portion of the second major surface. For example, an upper portion of the coating on one side of a layer of glass may have a shape that is complimentary to the lower portion of the coating on another, adjacent layer of glass that aligns the glass layers, and preferably prevents the glass of one layer from contacting the glass of another adjacent layer.
The flexible coating may be adhered to the first and/or second major surfaces with an adhesive disposed between the coating and the glass substrate. The coating may further comprise strengthening members, such as fibers.
The web and non-web portions of the coating may include registration markings to aid in alignment or positioning of the glass substrate. In some embodiments, one or both of the first and second major surfaces of the glass substrate may include one or more layers of a laminating or deposited material. For example, the glass substrate may be coated with another material prior to the application of the web coating material. The other material may be a laminating material such as a barrier layer to prevent leaching of the glass. Additionally, after the application of the web and non-web portions of the handling coating, additional materials may be formed on the substrate, such as, for example, electrically functional materials that may comprise an electronic device (e.g. a semiconductor device). As used herein, an electrically functional device includes organic or inorganic semiconductor and/or conductor materials.
In another embodiment, a glass ribbon is described comprising first and second major surfaces and first and second edges and a polymer coating disposed over the first and second major surfaces and extending beyond the first and second edges a distance of at least 1 mm to form flexible web portions. The flexible web portions may comprise perforations that can be used to engage with teeth in a roller (sprocket) or a track. The flexible web portion(s) or non-web portions of the coating may comprise registration markings such as lines or symbols for aligning the glass ribbon.
In still another embodiment, a method of conveying a glass ribbon is disclosed comprising dispensing a length of a glass ribbon from a first spool, the glass ribbon comprising a coating including a web portion extending from an edge of the ribbon at least 1 mm, engaging the web portion with a feed apparatus to convey the ribbon, the feed apparatus comprising a roller or track for engaging with the web portion, and collecting the dispensed ribbon by winding the dispensed ribbon onto a take-up spool. The web portion may comprise perforations, for engaging with the feed apparatus. For example, the feed apparatus may comprise sprockets, wherein the teeth of the sprocket engage with the perforations to transport the glass ribbon. However, the feed apparatus is not limited to sprockets, but may further include rollers or tracks for engaging with the web portion. In another example, pinch rollers may be used to engage with the web and/or non-web portion of the handling coating.
In some embodiments, the coating may include registration indicia, and the method further comprises detecting the indicia and positioning the ribbon in response to the detected indicia. The detecting can be performed by any suitable machine vision system as is known in the art for performing such tasks. If the glass ribbon is to be used for the manufacturing of electronic devices, the method may further comprise depositing an electrically functional material on at least a portion of the dispensed length prior to the collecting. For example, the glass ribbon is rolled off a first spool, the desired components are deposited on ribbon, and then the ribbon is collected by rolling the ribbon onto a second spool. The web portions may be removed from the ribbon after the depositing, leaving the interior portions of the ribbon undamaged.
The invention will be understood more easily and other objects, characteristics, details and advantages thereof will become more clearly apparent in the course of the following explanatory description, which is given, without in any way implying a limitation, with reference to the attached Figures. It is intended that all such additional systems, methods, features and advantages be included within this description, be within the scope of the present invention, and be protected by the accompanying claims.
In the following detailed description, for purposes of explanation and not limitation, example embodiments disclosing specific details are set forth to provide a thorough understanding of the present invention. However, it will be apparent to one having ordinary skill in the art, having had the benefit of the present disclosure, that the present invention may be practiced in other embodiments that depart from the specific details disclosed herein. Moreover, descriptions of well-known devices, methods and materials may be omitted so as not to obscure the description of the present invention. Finally, wherever applicable, like reference numerals refer to like elements.
While glass is known as a brittle material, inflexible and prone to scratching, chipping and fracture, in glass having a thin cross section can in fact be quite flexible. One need only consider the flexibility of hair-thin strands of optical fiber. Similarly, in thin sheets or ribbons, glass can be wound and un-wound from rolls, much like paper or plastic film. However, even though glass can be made flexible, it retains its brittle characteristic, and can be damaged by contact. For certain applications, particularly those for which visual defects can be distracting (e.g. display applications), even minor, seemingly cosmetic defects are unacceptable. For other applications requiring high mechanical strength, defects even less than 1 um can limit the mechanical reliability of the glass article. Thus, handling of the sheets in a manufacturing process, for example the depositing of thin film devices on the sheet, can become a source of loss and high cost.
Although glass can be processed on an individual sheet basis, a method contemplated herein, a more efficient method involves starting with a thin ribbon of glass wound on a roll as illustrated in
In another embodiment, depicted in
In still another embodiment illustrated in
In some embodiments, it may be desirable that the coating material extend completely over the entirety of a least one (first or second) major surface. In this way, surfaces of adjacent glass layers are prevented from having direct contact with each other, and at least one extended portion (web) can be used to position or convey the glass as previously described. Thus, the glass may be encapsulated by a coating that extends from one or both edges, and which coating may cover one or both major sides of the glass. As depicted in
As shown in
Where a ribbon is to be wound onto a spool or other take-up device, or one sheet is to be stacked onto another sheet, surfaces of the coating can be molded to include physically complementary features, as depicted in
To facilitate positioning of the substrate, a web portion may include perforations 32 that allow engagement with a sprocket wheel, as shown in
The coating can be applied as a liquid to the glass (ribbon or sheet) or as a pre-formed film. Suitable pre-formed films can be polymers, for example, silicone or polyimide. The choice of material can be selected to be compatible with the contemplated processing. Kapton® tape with an acrylic adhesive with a total thickness preferably in the range between about 50 μm and 100 μm (e.g. 63.5 microns), for example, has been shown to be a suitable pre-formed tape that can be applied to glass in a manner as described above, and that allows vacuum processing of the ribbon at temperatures as high as 300° C. In some instances a metal coating may also be used, either separately or in combination with a polymer. For example, the coating may be a laminated coating. Pre-formed films or coatings may be applied with an adhesive, such as an acrylic adhesive.
To provide increased strength, the web portions may include strengthening members. For example, a preformed tape may include glass or polymer fibers (e.g. Kevlar® fibers to provide additional strength to the coating material.
The glass substrate may be laminated or coated with a laminating or deposited material prior to the application of the web and non-web portions of the handling coating. For example, a barrier or other protective layer may be applied to the substrate prior to the application of the handling or conveyance coating 24. The laminating or coated material may be an organic material or an inorganic material, as needed.
Once the handling coating has been applied, additional materials may be formed on the substrate, such as electrically functional materials. For example, the substrate may be in the form of a glass ribbon comprising handing coating 24 wound on a first spool (see
It should be emphasized that the above-described embodiments of the present invention, particularly any “preferred” embodiments, are merely possible examples of implementations, merely set forth for a clear understanding of the principles of the invention. Many variations and modifications may be made to the above-described embodiments of the invention without departing substantially from the spirit and principles of the invention. All such modifications and variations are intended to be included herein within the scope of this disclosure and the present invention and protected by the following claims.
Claims
1. A glass substrate comprising:
- first and second major surfaces and first and second edges, the first and second edges separated by a width W;
- a flexible coating disposed over at least a portion of the first and second major surfaces, the coating comprising web portions extending from at least one of the first or second edge a distance of at least 1 mm.
2. The glass substrate according to claim 1, wherein the glass substrate is a glass ribbon.
3. The glass substrate according to claim 1, wherein the glass substrate is a glass sheet.
4. The glass substrate according to claim 1, wherein the flexible coating comprises a web portion extending from the first edge a distance of at least 1 mm and a web portion extending from the second edge a distance of at least 1 mm.
5. The glass substrate according to claim 1, wherein a thickness of the glass substrate is equal to or less than 0.3 mm.
6. The glass substrate according to claim 1, wherein the flexible coating coats the first and second major surfaces across the entire width W of the glass substrate.
7. The glass substrate according to claim 1, wherein the web portion extending from the at least one of the first or second edge of the glass substrate comprises perforations.
8. The glass substrate according to claim 1, wherein a surface of the flexible coating that coats at least a portion of the first major surface of the glass substrate has a non-planar shape complimentary to a non-planar shape of a surface of the flexible coating that coats at least a portion of the second major surface.
9. The glass substrate according to claim 1, wherein the flexible coating is adhered to the first and second major surfaces with an adhesive disposed between the coating and the glass substrate.
10. The glass substrate according to claim 1, wherein the flexible coating comprises strengthening fibers.
11. The glass substrate according to claim 1, wherein the flexible coating comprises registration markings.
12. The glass substrate according to claim 1, wherein one or both of the first and second major surfaces include one or more layers of a laminating or deposited material.
13. A glass ribbon comprising:
- first and second major surfaces and first and second edges;
- a flexible polymer coating disposed over the first and second major surfaces and extending beyond the first and second edges a distance of at least 1 mm to form flexible web portions.
14. The glass ribbon according to claim 13, wherein the flexible web portions comprise perforations.
15. The glass ribbon according to claim 13, wherein the flexible polymer coating comprises registration markings.
16. A method of conveying a glass ribbon comprising:
- dispensing a length of a glass ribbon from a first spool, the glass ribbon comprising a coating including a web portion extending from an edge of the ribbon at least 1 mm;
- engaging the web portion with a roller to convey the ribbon; and
- collecting the dispensed ribbon by winding the dispensed ribbon onto a take-up spool.
17. The method according to claim 16, wherein the web portion comprises perforations, and the roller comprises teeth that engage with the perforations.
18. The method according to claim 16, wherein the coating comprises registration indicia, and the method further comprising detecting the indicia and positioning the ribbon in response to the detected indicia.
19. The method according to claim 16, further comprising depositing an electrically functional material on at least a portion of the dispensed length prior to the collecting.
20. The method according to claim 19, further comprising removing the web portion after the depositing.
Type: Application
Filed: Jul 29, 2009
Publication Date: Feb 3, 2011
Inventors: Sean M. Garner (Elmira, NY), Gary E. Merz (Rochester, NY)
Application Number: 12/511,167
International Classification: C03B 23/02 (20060101); B32B 3/02 (20060101);