公开(公告)号：US11225052B2

公开(公告)日：2022-01-18

申请号：US16585885

申请日：2019-09-27

Applicant: CORNING INCORPORATED

Inventor： Dipakbin Qasem Chowdhury ,  William Keith Fisher ,  Kiat Chyai Kang ,  Michael Aaron McDonald ,  Chunhe Zhang

IPC: B32B15/08 ,  B32B17/10 ,  B32B15/18 ,  B32B17/06 ,  B32B7/02 ,  B32B38/00

Abstract: Laminated structures include a thin glass sheet with a thickness of less than 600 μm being attached to a metal sheet with an adhesive layer including a thickness of about 100 μm or less. These laminated structures can include planar or curved shapes. Methods of manufacturing a laminated structure are also provided including the step of attaching a glass sheet with a thickness of less than 600 μm to a metal sheet with an adhesive layer including a thickness of about 300 μm or less.

公开(公告)号：US20180105458A1

公开(公告)日：2018-04-19

申请号：US15557331

申请日：2016-03-10

Applicant: CORNING INCORPORATED

Inventor： Ching-Kee Chien ,  Kiat Chyai Kang ,  Sue Camille Lewis

IPC: C03C17/34 ,  C03C17/30 ,  B65H18/10

CPC classification number: C03C17/3405 ,  B65H18/00 ,  B65H18/103 ,  B65H23/1806 ,  B65H2301/5114 ,  B65H2801/61 ,  C03C17/30

Abstract: A method includes applying a coupling agent solution to a major surface of a continuously moving glass ribbon to form a coupling agent coated region of the glass ribbon. The glass ribbon is a flexible glass ribbon having a thickness of at most about 300 μm. The method includes heating the coupling agent coated region of the glass ribbon to form a coupling agent treated region of the glass ribbon and winding the glass ribbon onto a collection roll. A glass ribbon has a thickness of at most about 300 μm and a major surface. At least a portion of the major surface includes a coupling agent treated region. Upon forming a polymeric layer on the coupling agent treated region at least five months after forming the coupling agent treated region, the polymeric layer has a peel force of at least 200 gf/in.

公开(公告)号：US20210170722A1

公开(公告)日：2021-06-10

申请号：US17181135

申请日：2021-02-22

Applicant: CORNING INCORPORATED

Inventor： Kiat Chyai Kang ,  Govindarajan Natarajan ,  Yu Xiao

IPC: B32B17/06 ,  B29C65/00 ,  B32B17/10 ,  B29C65/02 ,  B32B27/30 ,  B32B7/12 ,  B29C65/54 ,  B32B27/06 ,  B29L9/00 ,  B29L31/34 ,  B29K105/00

Abstract: A glass-polymer laminate structure includes a flexible glass substrate having a thickness of no more than about 0.3 mm. A polymer layer is laminated to a surface of the flexible glass substrate having a coefficient of thermal expansion (CTE) that is at least about 2 times a CTE of the flexible glass substrate. The polymer layer is laminated to the surface of the flexible glass substrate after thermally expanding the polymer layer to provide the flexible glass substrate with an in-plane compressive stress of at least about 30 MPa along a thickness of the flexible glass substrate.

公开(公告)号：US20200023611A1

公开(公告)日：2020-01-23

申请号：US16585885

申请日：2019-09-27

Applicant: CORNING INCORPORATED

Inventor： Dipakbin Qasem Chowdhury ,  William Keith Fisher ,  Kiat Chyai Kang ,  Michael Aaron McDonald ,  Chunhe Zhang

IPC: B32B7/02 ,  B32B38/00 ,  B32B17/10 ,  B32B15/18 ,  B32B17/06 ,  B32B15/08

Abstract: Laminated structures include a thin glass sheet with a thickness of less than 600 μm being attached to a metal sheet with an adhesive layer including a thickness of about 100 μm or less. These laminated structures can include planar or curved shapes. Methods of manufacturing a laminated structure are also provided including the step of attaching a glass sheet with a thickness of less than 600 μm to a metal sheet with an adhesive layer including a thickness of about 300 μm or less.

公开(公告)号：US20150336357A1

公开(公告)日：2015-11-26

申请号：US14759354

申请日：2014-01-06

Applicant: Kiat Chyai KANG ,  Sue Camille LEWIS ,  Govindarajan NATARAJAN ,  Yu XIAO ,  Chunhe ZHANG ,  CORNING INCORPORATED

Inventor： Kiat Chyai Kang ,  Sue Camille Lewis ,  Govindarajan Natarajan ,  Yu Xiao ,  Chunhe Zhang

IPC: B32B17/06 ,  B32B7/12

CPC classification number: B32B17/061 ,  B32B7/02 ,  B32B7/10 ,  B32B7/12 ,  B32B15/18 ,  B32B15/20 ,  B32B2307/558 ,  Y10T428/24942 ,  Y10T428/24967 ,  Y10T428/26 ,  Y10T428/266

Abstract: A laminated glass structure comprising a non-glass substrate and a glass sheet bonded to the non-glass substrate to form the laminated glass structure, wherein the laminated glass structure withstands a ball drop test wherein a 535 g stainless steel ball is dropped from a height of 0.8 m onto the laminated glass structure, with the glass sheet being impacted by the ball. The glass sheet has a thickness such that the glass sheet exhibits, without cracking, deformation to adapt to any shape change of the non-glass substrate as imparted by the ball of the ball drop test.

Abstract translation: 一种夹层玻璃结构，其包括非玻璃基板和与非玻璃基板接合以形成夹层玻璃结构的玻璃板，其中夹层玻璃结构可承受球滴试验，其中535g不锈钢球从高度 为0.8米，夹在玻璃结构上，玻璃板受到球的冲击。 玻璃板的厚度使得玻璃板在没有开裂的情况下显示变形以适应由球滴试验球赋予的非玻璃基板的任何形状变化。

公开(公告)号：US09963374B2

公开(公告)日：2018-05-08

申请号：US14785457

申请日：2014-04-14

Applicant: Corning Incorporated

Inventor： Jean-Marc Martin Gerard Jouanno ,  Kiat Chyai Kang ,  Sue Camille Lewis ,  Govindarajan Natarajan ,  Yu Xiao

IPC: B29C65/00 ,  C03B27/012 ,  B32B17/06 ,  B32B17/10 ,  B32B37/06 ,  B32B37/08 ,  B32B37/10 ,  B29C44/06 ,  B29C35/02 ,  B29C44/24 ,  B29C43/30 ,  B29C43/52

CPC classification number: C03B27/012 ,  B29C35/0238 ,  B29C35/0277 ,  B29C43/30 ,  B29C43/52 ,  B29C44/06 ,  B29C44/24 ,  B32B17/061 ,  B32B17/064 ,  B32B17/10036 ,  B32B37/06 ,  B32B37/08 ,  B32B37/10 ,  B32B2457/20

Abstract: A method of forming a laminated glass structure includes introducing a continuous ribbon of flexible glass substrate having a thickness of no greater than about 0.3 mm to a substrate material. The substrate material has a coefficient of thermal expansion (CTE) that is greater than that of the flexible glass substrate. The flexible glass substrate is laminated to the substrate material at an elevated temperature. The substrate material is cooled to introduce a compressive stress across a thickness of the flexible glass substrate.

公开(公告)号：US09683945B2

公开(公告)日：2017-06-20

申请号：US14403694

申请日：2013-05-23

Applicant: Corning Incorporated

Inventor： Kiat Chyai Kang ,  Richard Sean Priestley

IPC: G01N21/84 ,  G01N21/89 ,  G01L1/24 ,  G01N21/896

CPC classification number: G01N21/8914 ,  G01L1/24 ,  G01N21/896

Abstract: An apparatus (10) is provided for inspecting a flexible glass ribbon. In one example, the apparatus includes at least one storage roll (16) for storing a length of the flexible glass ribbon (12). In another example, the apparatus further includes an inspection device (50). In yet another example, the inspection device can inspect a characteristic of an unrolled portion (28) of the flexible glass ribbon (12) spanning along a travel path (14) of the flexible glass ribbon.

公开(公告)号：US20150183186A1

公开(公告)日：2015-07-02

申请号：US14412152

申请日：2013-06-25

Applicant: Corning Incorporated

Inventor： Donald Orrin Bigelow ,  Kiat Chyai Kang ,  Sue Camille Lewis ,  Govindarajan Natarajan ,  Eungsik Park

IPC: B32B7/06 ,  B32B38/10 ,  B32B43/00 ,  B32B37/18 ,  B32B7/04 ,  B32B17/06

CPC classification number: B32B7/06 ,  B32B7/045 ,  B32B17/06 ,  B32B37/18 ,  B32B38/10 ,  B32B43/006 ,  B32B2307/748 ,  B32B2457/20 ,  B65G49/069 ,  B65H2301/51122 ,  B65H2557/514 ,  B65H2701/1315 ,  B65H2801/61 ,  C03C2218/355 ,  Y10T156/1153 ,  Y10T156/1158 ,  Y10T156/1195 ,  Y10T428/24777 ,  Y10T428/24802

Abstract: Methods of processing a glass substrate comprise the step of obtaining a glass substrate and a tab removably attached to a portion of the glass substrate. The position of the glass substrate is manipulated with the engagement portion and the tab is removed from the portion of the glass substrate by releasing a mounting portion of the tab from the portion of the glass substrate without damaging the glass substrate. In further examples, methods include the steps of removably attaching first and second tabs to respective first and second surfaces of a glass substrate and coiling the glass substrate on a storage roll wherein the first tab adheres to the second tab. In further examples, a glass apparatus comprises a glass substrate and a removable tab including a mounting portion attached to a portion of the glass substrate with a first peel force of less than about 10 N/cm.

Abstract translation: 处理玻璃基板的方法包括获得玻璃基板和可移除地附接到玻璃基板的一部分的突片的步骤。 玻璃基板的位置通过接合部分操作，并且通过从玻璃基板的部分释放突片的安装部分而不会损坏玻璃基板，从玻璃基板的部分移除突片。 在另外的例子中，方法包括以下步骤：将第一和第二接头可移除地连接到玻璃基板的相应的第一和第二表面上，并将玻璃基板卷绕在存储辊上，其中第一接片粘附到第二接头。 在另外的实施例中，玻璃装置包括玻璃基板和可移除的突片，其包括附着到玻璃基板的一部分的安装部分，其具有小于约10N / cm的第一剥离力。

公开(公告)号：US11766849B2

公开(公告)日：2023-09-26

申请号：US14774469

申请日：2014-03-10

Applicant: Corning Incorporated

Inventor： Dana Craig Bookbinder ,  Patrick Joseph Cimo ,  Karthik Gopalakrishnan ,  Timothy Michael Gross ,  Glafiro Guerrero-Medina ,  Kiat Chyai Kang ,  Sue Camille Lewis

IPC: C03C3/078 ,  C03B33/09 ,  B32B17/10 ,  C03B33/023 ,  C03C3/093 ,  C03B33/07 ,  C03C3/091 ,  B32B43/00

CPC classification number: B32B17/10 ,  B32B17/1099 ,  B32B43/003 ,  C03B33/0235 ,  C03B33/074 ,  C03C3/091 ,  C03C3/093 ,  B32B2315/08

Abstract: Methods and apparatus provide for: sourcing an ultra-thin glass sheet having first and second opposing major surfaces and perimeter edges therebetween, the glass sheet having a thickness between the first and second surfaces of less than about 400 microns; adhering at least one polymer layer directly or indirectly to at least one of the first and second surfaces of the glass sheet to form a laminated structure; and cutting the laminated structure using at least one of the following techniques: shear cutting, burst cutting, slit cutting, and crush cutting.

公开(公告)号：US10953633B2

公开(公告)日：2021-03-23

申请号：US14423956

申请日：2013-08-27

Applicant: Corning Incorporated

Inventor： Kiat Chyai Kang ,  Govindarajan Natarajan ,  Yu Xiao

IPC: B29C65/02 ,  B32B7/12 ,  B32B27/06 ,  B32B17/06 ,  B32B17/10 ,  B29C65/54 ,  B29C65/00 ,  B32B27/30 ,  B29K105/00 ,  B29L9/00 ,  B29L31/34

Abstract: A glass-polymer laminate structure includes a flexible glass substrate having a thickness of no more than about 0.3 mm. A polymer layer is laminated to a surface of the flexible glass substrate having a coefficient of thermal expansion (CTE) that is at least about 2 times a CTE of the flexible glass substrate. The polymer layer is laminated to the surface of the flexible glass substrate after thermally expanding the polymer layer to provide the flexible glass substrate with an in-plane compressive stress of at least about 30 MPa along a thickness of the flexible glass substrate.