公开(公告)号：US11884574B2

公开(公告)日：2024-01-30

申请号：US18068784

申请日：2022-12-20

Applicant: CORNING INCORPORATED

Inventor： Leonard Charles Dabich, II ,  Shari Elizabeth Koval ,  Mark Alejandro Quesada ,  Paul Arthur Tick

IPC: C03B37/005 ,  C03B37/05 ,  C03C3/247 ,  C03C8/08 ,  C03C13/00 ,  C03C8/24 ,  C03B37/01 ,  C03C8/06

CPC classification number: C03B37/005 ,  C03B37/01 ,  C03B37/055 ,  C03C3/247 ,  C03C8/06 ,  C03C8/08 ,  C03C8/24 ,  C03C13/00

Abstract: Disclosed herein are methods for forming low melting point glass fibers comprising providing a glass feedstock comprising a low melting point glass and melt-spinning the glass feedstock to produce glass fibers, wherein the glass transition temperature of the glass fibers is less than or equal to about 120% of the glass transition temperature of the glass feedstock. The disclosure also relates to method for forming low melting point glass frit further comprising jet-milling the glass fibers. Low melting point glass frit and fibers produced by the methods described above are also disclosed herein.

公开(公告)号：US20230124925A1

公开(公告)日：2023-04-20

申请号：US18068784

申请日：2022-12-20

Applicant: CORNING INCORPORATED

Inventor： Leonard Charles Dabich, II ,  Shari Elizabeth Koval ,  Mark Alejandro Quesada ,  Paul Arthur Tick

IPC: C03B37/005 ,  C03B37/05 ,  C03C3/247 ,  C03C8/08 ,  C03C13/00 ,  C03C8/24 ,  C03B37/01 ,  C03C8/06

Abstract: Disclosed herein are methods for forming low melting point glass fibers comprising providing a glass feedstock comprising a low melting point glass and melt-spinning the glass feedstock to produce glass fibers, wherein the glass transition temperature of the glass fibers is less than or equal to about 120% of the glass transition temperature of the glass feedstock. The disclosure also relates to method for forming low melting point glass frit further comprising jet-milling the glass fibers. Low melting point glass frit and fibers produced by the methods described above are also disclosed herein.

公开(公告)号：US11560328B2

公开(公告)日：2023-01-24

申请号：US15117954

申请日：2015-02-11

Applicant: Corning Incorporated

Inventor： Leonard Charles Dabich, II ,  Mark Alejandro Quesada ,  Shari Elizabeth Koval ,  Paul Arthur Tick

IPC: C03C8/08 ,  C03B37/005 ,  C03B37/05 ,  C03C3/247 ,  C03C13/00 ,  C03C8/24 ,  C03B37/01 ,  C03C8/06

Abstract: Disclosed herein are methods for forming low melting point glass fibers comprising providing a glass feedstock comprising a low melting point glass and melt-spinning the glass feedstock to produce glass fibers, wherein the glass transition temperature of the glass fibers is less than or equal to about 120% of the glass transition temperature of the glass feedstock. The disclosure also relates to method for forming low melting point glass frit further comprising jet-milling the glass fibers. Low melting point glass frit and fibers produced by the methods described above are also disclosed herein.

公开(公告)号：US20190022782A1

公开(公告)日：2019-01-24

申请号：US15755715

申请日：2016-08-30

Applicant: Corning Incorporated

Inventor： Matthew John Dejneka ,  Indrajit Dutta ,  Shari Elizabeth Koval ,  Stephan Lvovich Logunov ,  Mark Alejandro Quesada

IPC: B23K1/005 ,  B32B17/06 ,  B32B9/00 ,  C09K11/08

Abstract: Disclosed herein are methods for making a sealed device (200), the methods comprising positioning a sealing layer comprising at least one metal between a first glass substrate (201a) and a second substrate (201b) to form a sealing interface; and directing a laser beam operating at a predetermined wavelength onto the sealing interface to form at least one seal (207) between the first and second substrates and to convert the at least one metal to metal nanoparticles. Sealed devices having a seal comprising metal nanoparticles having a particles size of less than about 50 nm are also disclosed herein, as well as display devices comprising such sealed devices.

公开(公告)号：US20160229743A1

公开(公告)日：2016-08-11

申请号：US15133556

申请日：2016-04-20

Applicant: CORNING INCORPORATED

Inventor： Kaveh Adib ,  Christy Lynn Chapman ,  Matthew John Dejneka ,  Shari Elizabeth Koval

IPC: C03C21/00 ,  C03C3/097 ,  C03C3/091 ,  A01N59/00 ,  C03C3/087 ,  C03C4/18 ,  A01N59/16 ,  A01N59/20 ,  C03C10/00 ,  C03C3/093

CPC classification number: C03C21/005 ,  A01N59/00 ,  A01N59/16 ,  A01N59/20 ,  C03C3/085 ,  C03C3/087 ,  C03C3/091 ,  C03C3/093 ,  C03C3/097 ,  C03C4/18 ,  C03C10/0027 ,  C03C10/0054 ,  C03C21/001 ,  C03C21/002 ,  C03C2204/02 ,  Y10T428/315

Abstract: Described herein are glass, ceramic, or glass-ceramic articles having improved antimicrobial efficacy. Further described are methods of making and using the improved articles. The improved articles generally include a glass, ceramic, or glass-ceramic substrate, a compressive stress layer that extends inward from a surface of the glass, ceramic, or glass-ceramic substrate to a first depth therein, and an antimicrobial agent-containing region that extends inward from the surface of the glass, ceramic, or glass-ceramic substrate to a second depth therein.

Abstract translation: 本文描述了具有改善的抗微生物效能的玻璃，陶瓷或玻璃陶瓷制品。 进一步描述制造和使用改进物品的方法。 改进的制品通常包括玻璃，陶瓷或玻璃陶瓷基板，从玻璃，陶瓷或玻璃陶瓷基板的表面向内延伸到其第一深度的压应力层，以及含抗微生物剂的区域 其从玻璃，陶瓷或玻璃陶瓷基板的表面向内延伸到其中的第二深度。

公开(公告)号：US20170327419A1

公开(公告)日：2017-11-16

申请号：US15522198

申请日：2015-10-29

Applicant: CORNING INCORPORATED

Inventor： Heather Debra Boek ,  Leonard Charles Dabich, II ,  David Alan Deneka ,  Jin Su Kim ,  Shari Elizabeth Koval ,  Stephan Lvovich Logunov ,  Mark Alejandro Quesada ,  Alexander Mikhailovich Streltsov

IPC: C03C23/00 ,  C03C3/14 ,  C03C3/16 ,  C03C27/10 ,  C01G19/02 ,  C03C3/247 ,  C03C3/23 ,  C03C15/00 ,  C03C27/04 ,  H01L51/52 ,  C03C17/06 ,  C03C17/23

CPC classification number: C03C23/0025 ,  C01G19/02 ,  C03C3/14 ,  C03C3/16 ,  C03C3/23 ,  C03C3/247 ,  C03C15/00 ,  C03C17/02 ,  C03C17/06 ,  C03C17/23 ,  C03C27/044 ,  C03C27/06 ,  C03C27/10 ,  H01L51/5246

Abstract: A method of forming a sealed device comprising providing a first substrate having a first surface, providing a second substrate adjacent the first substrate, and forming a weld between an interface of the first substrate and the adjacent second substrate, wherein the weld is characterized by ((σtensile stress location)/(σinterface laser weld)) 10 MPa or >1 MPa where σtensile stress location is the stress present in the first substrate and σinterface laser weld is the stress present at the interface. This method may be used to manufacture a variety of different sealed packages.

公开(公告)号：US09555595B2

公开(公告)日：2017-01-31

申请号：US14032663

申请日：2013-09-20

Applicant: CORNING INCORPORATED

Inventor： Victoria Ann Edwards ,  Cynthia Baker Giroux ,  Shari Elizabeth Koval ,  Mark Alejandro Quesada ,  Wanda Janina Walczak

IPC: B32B3/04 ,  B32B27/32 ,  B32B27/36 ,  H01L51/52

CPC classification number: B32B3/04 ,  B32B9/045 ,  B32B27/283 ,  B32B27/32 ,  B32B27/36 ,  B32B2255/20 ,  B32B2307/412 ,  B32B2307/546 ,  B32B2307/554 ,  B32B2307/5825 ,  B32B2307/732 ,  B32B2367/00 ,  B32B2439/70 ,  B32B2439/80 ,  B32B2457/12 ,  B32B2457/206 ,  H01L51/5237 ,  H01L51/524 ,  H01L51/5246 ,  H01L51/5256 ,  Y10T156/10 ,  Y10T428/231 ,  Y10T428/239 ,  Y10T428/24 ,  Y10T428/249921 ,  Y10T428/263 ,  Y10T428/31663 ,  Y10T428/31786

Abstract: A free-standing multi-laminate hermetic sheet includes a first carrier film, a hermetic inorganic thin film formed over the first carrier film, and a second carrier film formed over the hermetic inorganic thin film. A workpiece can be hermetically sealed using the multi-laminate sheet, which can be applied to the workpiece in a step separate from a formation step of either the multi-laminate sheet or the workpiece.

Abstract translation: 独立的多层密封薄片包括第一载体膜，形成在第一载体膜上的密封无机薄膜和形成在密封无机薄膜上的第二载体膜。 可以使用可与多层压片或工件的形成步骤分离的步骤施加到工件上的多层压片材气密密封工件。

公开(公告)号：US20160347644A1

公开(公告)日：2016-12-01

申请号：US15117954

申请日：2015-02-11

Applicant: CORNING INCORPORATED

Inventor： Leonard Charles Dabich II ,  Mark Alejandro Quesada ,  Shari Elizabeth Koval ,  Paul Arthur Tick

IPC: C03B37/005 ,  C03C3/247 ,  C03C8/08 ,  C03B37/05 ,  C03C13/00

CPC classification number: C03B37/005 ,  C03B37/01 ,  C03B37/055 ,  C03C3/247 ,  C03C8/06 ,  C03C8/08 ,  C03C8/24 ,  C03C13/00

Abstract: Disclosed herein are methods for forming low melting point glass fibers comprising providing a glass feedstock comprising a low melting point glass and melt-spinning the glass feedstock to produce glass fibers, wherein the glass transition temperature of the glass fibers is less than or equal to about 120% of the glass transition temperature of the glass feedstock. The disclosure also relates to method for forming low melting point glass frit further comprising jet-milling the glass fibers. Low melting point glass frit and fibers produced by the methods described above are also disclosed herein.

Abstract translation: 本文公开了形成低熔点玻璃纤维的方法，包括提供包含低熔点玻璃的玻璃原料并熔融纺丝玻璃原料以制备玻璃纤维，其中玻璃纤维的玻璃化转变温度小于或等于约 120％玻璃原料的玻璃化转变温度。 本公开还涉及用于形成低熔点玻璃料的方法，还包括喷射研磨玻璃纤维。 本文还公开了通过上述方法制备的低熔点玻璃料和纤维。

公开(公告)号：US20140356605A1

公开(公告)日：2014-12-04

申请号：US14288811

申请日：2014-05-28

Applicant: Corning Incorporated

Inventor： Kaveh Adib ,  Matthew John Dejneka ,  Shari Elizabeth Koval

IPC: C03C21/00

CPC classification number: C03C21/005 ,  A01N59/00 ,  A01N59/16 ,  A01N59/20 ,  C03C3/085 ,  C03C3/087 ,  C03C3/091 ,  C03C3/093 ,  C03C3/097 ,  C03C4/18 ,  C03C10/0027 ,  C03C10/0054 ,  C03C21/001 ,  C03C21/002 ,  C03C2204/02 ,  Y10T428/315

Abstract: Described herein are glass, ceramic, or glass-ceramic articles having improved antimicrobial efficacy. Further described are methods of making and using the improved articles. The improved articles generally include a glass, ceramic, or glass-ceramic substrate, a compressive stress layer that extends inward from a surface of the glass, ceramic, or glass-ceramic substrate to a first depth therein, and an antimicrobial agent-containing region that extends inward from the surface of the glass, ceramic, or glass-ceramic substrate to a second depth therein.

Abstract translation: 本文描述了具有改善的抗微生物效能的玻璃，陶瓷或玻璃陶瓷制品。 进一步描述制造和使用改进物品的方法。 改进的制品通常包括玻璃，陶瓷或玻璃陶瓷基板，从玻璃，陶瓷或玻璃陶瓷基板的表面向内延伸到其第一深度的压应力层，以及含抗微生物剂的区域 其从玻璃，陶瓷或玻璃陶瓷基板的表面向内延伸到其中的第二深度。

公开(公告)号：US20140017437A1

公开(公告)日：2014-01-16

申请号：US14032663

申请日：2013-09-20

Applicant: CORNING INCORPORATED

Inventor： Victoria Ann Edwards ,  Cynthia Baker Giroux ,  Shari Elizabeth Koval ,  Mark Alejandro Quesada ,  Wanda Janina Walczak

IPC: B32B3/04

CPC classification number: B32B3/04 ,  B32B9/045 ,  B32B27/283 ,  B32B27/32 ,  B32B27/36 ,  B32B2255/20 ,  B32B2307/412 ,  B32B2307/546 ,  B32B2307/554 ,  B32B2307/5825 ,  B32B2307/732 ,  B32B2367/00 ,  B32B2439/70 ,  B32B2439/80 ,  B32B2457/12 ,  B32B2457/206 ,  H01L51/5237 ,  H01L51/524 ,  H01L51/5246 ,  H01L51/5256 ,  Y10T156/10 ,  Y10T428/231 ,  Y10T428/239 ,  Y10T428/24 ,  Y10T428/249921 ,  Y10T428/263 ,  Y10T428/31663 ,  Y10T428/31786

Abstract: A free-standing multi-laminate hermetic sheet includes a first carrier film, a hermetic inorganic thin film formed over the first carrier film, and a second carrier film formed over the hermetic inorganic thin film A workpiece can be hermetically sealed using the multi-laminate sheet, which can be applied to the workpiece in a step separate from a formation step of either the multi-laminate sheet or the workpiece.

Abstract translation: 独立的多层层压密封片包括第一载体膜，形成在第一载体膜上的密封无机薄膜和形成在密封无机薄膜A上的第二载体膜可以使用多层压板气密密封 片材，其可以在与多层压片材或工件的形成步骤分离的步骤中施加到工件。