公开(公告)号：US20170022096A1

公开(公告)日：2017-01-26

申请号：US15239862

申请日：2016-08-18

Applicant: Guardian Industries Corp.

Inventor： Jens-Peter MULLER ,  Herbert LAGE ,  Thorsten FROST ,  Vijayen S. VEERASAMY

IPC: C03C17/34 ,  C03B27/012 ,  C03C17/22

CPC classification number: C03C17/3441 ,  C03B27/012 ,  C03C17/22 ,  C03C17/3435 ,  C03C2217/216 ,  C03C2217/24 ,  C03C2217/281 ,  C03C2217/78 ,  C03C2218/154 ,  C03C2218/322 ,  C03C2218/328 ,  C03C2218/355 ,  Y10T156/10 ,  Y10T428/30

Abstract: A method of making a heat treated (HT) or heat treatable coated article. A method of making a coated article includes a step of heat treating a glass substrate coated with at least layer of or including carbon (e.g., diamond-like carbon (DLC)) and an overlying protective film thereon. In certain example embodiments, the protective film may be of or include both (a) an oxygen blocking or barrier layer, and (b) a release layer of or including zinc oxide. Treating the zinc oxide inclusive release layer with plasma including oxygen (e.g., via ion beam treatment) improves thermal stability and/or quality of the product. Following and/or during heat treatment (e.g., thermal tempering, or the like) the protective film may be entirely or partially removed.

Abstract translation: 制造热处理（HT）或热处理涂层制品的方法。 制造涂布制品的方法包括对涂覆有至少一层或包括碳（例如，类金刚石碳（DLC））的玻璃基板和其上覆盖的保护膜进行热处理的步骤。 在某些示例性实施方案中，保护膜可以是（或）氧阻挡层或阻挡层，或者（b）氧化锌的剥离层。 用包括氧的等离子体（例如经由离子束处理）处理包含氧化锌的释放层改善了产品的热稳定性和/或质量。 继续和/或在热处理（例如热回火等）期间，可以完全或部分地去除保护膜。

公开(公告)号：US20160159678A1

公开(公告)日：2016-06-09

申请号：US14951696

申请日：2015-11-25

Applicant: Gyrotron Technology Inc.

Inventor： Vladislav Sklyarevich ,  Mykhaylo Shevelev

IPC: C03B27/012 ,  C03B27/052

CPC classification number: C03B29/08 ,  C03B27/044 ,  C03B29/025

Abstract: A method of thermally tempering a glass sheet. The method includes preheating the glass sheet to a temperature higher than a strain point of the glass sheet and lower than a softening point of the glass sheet, exposing the glass sheet to an electromagnetic radiation in order to heat the mid-plane of the glass sheet to a temperature significantly higher than the transition point while simultaneously keeping a surface of the glass sheet at a temperature that is below the softening point, and quenching the glass sheet so that the temperature of the mid-plane and the surface of the glass sheet fall below the strain point, respectively.

Abstract translation: 一种对玻璃板进行热回火的方法。 该方法包括将玻璃板预热至高于玻璃板的应变点的温度并低于玻璃板的软化点，将玻璃板暴露于电磁辐射以加热玻璃板的中间平面 达到显着高于转变点的温度，同时将玻璃板的表面保持在低于软化点的温度，并淬火玻璃板，使得玻璃板的中间平面和表面的温度下降 分别在应变点以下。

公开(公告)号：US20160122227A1

公开(公告)日：2016-05-05

申请号：US14893390

申请日：2014-05-21

Applicant: SAINT-GOBAIN GLASS FRANCE

Inventor： Emmanuel MIMOUN ,  Brice DUBOST

IPC: C03B27/012

CPC classification number: C03B27/012 ,  B23K26/0006 ,  B23K26/0624 ,  B23K26/0626 ,  B23K26/08 ,  B23K26/352 ,  B23K2103/50 ,  C03C23/0025 ,  G03F7/001

Abstract: In a process for obtaining a transparent substrate including a refractive index modulation pattern, a transparent substrate is irradiated with a laser radiation focused on the substrate in the form of at least one laser line, where the substrate at least partially absorbs the laser radiation, a relative movement is generated between the substrate and the laser line focused on the substrate, in a direction (X) transverse to the longitudinal direction (Y) of the laser line, and, in the course of this relative movement, the power of the laser line is temporally modulated as a function of the speed of the relative movement and as a function of the dimensions of the pattern in the direction (X) of the relative movement.

Abstract translation: 在获得包括折射率调制图案的透明基板的工艺中，透明基板以至少一个激光线的形式被聚焦在基板上的激光辐射照射，其中基板至少部分地吸收激光辐射， 在与激光线的纵向方向（Y）横向的方向（X）上，在基板和聚焦在基板上的激光线之间产生相对运动，并且在该相对运动的过程中，激光的功率 线作为相对运动的速度的函数进行时间调制，并且作为相对运动方向（X）上的图案的尺寸的函数。

公开(公告)号：US08815403B2

公开(公告)日：2014-08-26

申请号：US13131987

申请日：2010-06-25

Applicant: Shigeru Yamagata ,  Tomomi Usui

Inventor： Shigeru Yamagata ,  Tomomi Usui

IPC: B32B9/04 ,  B32B13/04 ,  B32B5/16 ,  B32B1/08 ,  C03B19/01 ,  C03B37/00 ,  C03B27/012 ,  C03B29/00 ,  C03B11/08 ,  C30B29/06 ,  C30B35/00 ,  C03B19/09 ,  C30B15/10

CPC classification number: C03B19/095 ,  C03B2201/07 ,  C03B2201/075 ,  C03B2201/32 ,  C30B15/10 ,  C30B29/06 ,  C30B35/002 ,  Y10T428/131 ,  Y10T428/1317 ,  Y10T428/2982

Abstract: A method for producing a silica container having a rotational symmetry is provided. The method includes forming a preliminarily molded article by feeding a powdered substrate's raw material to an inner wall of an outer frame having aspiration holes with rotating the frame, and forming a silica substrate. The preliminarily molded article is aspirated from an outer peripheral side with controlling a humidity inside the outer frame by ventilating gases present in the outer frame with charging from inside the preliminarily molded article a gas mixture comprised of an O2 gas and an inert gas and made below a prescribed dew-point temperature by dehumidification, and at the same time heated from inside the preliminarily molded article by a discharge-heat melting method with carbon electrodes, thereby making an outer peripheral part of the preliminarily molded article to a sintered body while an inner peripheral part to a fused glass body.

Abstract translation: 提供了具有旋转对称性的二氧化硅容器的制造方法。 该方法包括通过将粉末状基材的原料供给到具有旋转框架的具有抽吸孔的外框架的内壁，并形成二氧化硅基板来形成预成型品。 从外周侧抽吸预成型品，通过从外部框架内部充填从O 2气体和惰性气体构成的气体混合物从外部框架内的气体通风来控制外框内的湿度， 通过除湿规定的露点温度，同时用碳电极通过放电加热熔融法从预成型体内部加热，由此使预成型品的外周部分成为烧结体，而内部 周边部分为熔融玻璃体。

公开(公告)号：US08769990B2

公开(公告)日：2014-07-08

申请号：US13628105

申请日：2012-09-27

Applicant: Asahi Glass Company, Limited

Inventor： Isao Saito ,  Junji Hori ,  Kiyota Miyazaki ,  Tomohiro Suwa ,  Yasumasa Kato ,  Satoshi Yoshida ,  Kazushige Yoda

IPC: C03B27/012 ,  C03B27/04

CPC classification number: C03B27/012 ,  C03B27/0404 ,  C03B27/0413 ,  C03B27/0417 ,  C03B27/0442 ,  C03B29/08 ,  C03B35/181 ,  C03B35/183

Abstract: The method for tempering a glass sheet of the present invention comprises a heating step of heating the glass sheet to a temperature close to the softening point of the glass sheet, a quenching step of blowing a cooling medium to both surfaces in the thickness direction of the heated glass to cool it, and a pre-quenching step between the heating step and the quenching step and further has an internal heating substep of selectively heating the vicinity of the center portion in the thickness direction of the glass sheet at least in the quenching step, to create such a state that when the temperature at the center portion in the thickness direction of the glass sheet is close to the tempering point, the temperature at the surfaces in the thickness direction of the glass sheet is not higher than the annealing point.

Abstract translation: 本发明的玻璃板的回火方法包括将玻璃板加热到接近玻璃板的软化点的加热步骤，将冷却介质吹向厚度方向的两面的淬火工序 加热玻璃使其冷却，并且在加热工序和淬火工序之间进行预淬火工序，还具有至少在骤冷工序中选择性地加热玻璃板的厚度方向中心部附近的内部加热子步骤 为了形成这样的状态：当玻璃板的厚度方向的中央部的温度接近回火点时，玻璃板的厚度方向的表面的温度不高于退火点。

公开(公告)号：US20130071666A1

公开(公告)日：2013-03-21

申请号：US13590254

申请日：2012-08-21

Applicant: Hiroshi KOMORI ,  Masahiro Tomamoto ,  Yoshinari Kato

Inventor： Hiroshi KOMORI ,  Masahiro Tomamoto ,  Yoshinari Kato

IPC: C03B27/012 ,  B32B33/00

CPC classification number: C03B27/012 ,  B32B33/00 ,  C03C23/007 ,  Y02P40/57 ,  Y10T428/315

Abstract: Provided is a method of producing a tempered glass sheet, comprising applying tempering treatment to a glass sheet by increasing the content of SiO2 in terms of mass in a surface region of a glass sheet through application of thermal treatment to the glass sheet to 1.03 or more times that in an interior region positioned at a depth of 1 μm from a surface of the glass sheet.

公开(公告)号：US20130008500A1

公开(公告)日：2013-01-10

申请号：US13541995

申请日：2012-07-05

Applicant: Jinxi LIN ,  Jinhan LIN ,  Yuting LIN

Inventor： Jinxi LIN ,  Jinhan LIN ,  Yuting LIN

IPC: B32B17/06 ,  H01L31/18 ,  H01L31/0203 ,  B32B15/04 ,  C03B27/012 ,  B32B3/00

CPC classification number: C03B27/0413 ,  C03B27/04 ,  C03C17/34 ,  C03C2218/365 ,  F24S80/50 ,  F24S2023/86 ,  H01L31/0392 ,  H01L31/048 ,  H01L31/0488 ,  H01L31/049 ,  H01L31/052 ,  H01L31/0547 ,  Y02E10/40 ,  Y02E10/52 ,  Y10T428/24364 ,  Y10T428/266

Abstract: The present invention pertains to a physical tempered glass and a solar panel utilizing the same. The physical tempered glass of the present invention has a thickness of about 0.5 mm to about 2.8 mm, a compressive strength of about 120 MPa to about 300 MPa, a bending strength of about 120 MPa to about 300 MPa and a tensile strength of about 90 MPa to about 180 MPa. The present invention also relates to the preparation of the physical tempered glass and the solar panel.

Abstract translation: 本发明涉及一种物理钢化玻璃和使用其的太阳能电池板。 本发明的物理钢化玻璃的厚度为约0.5mm至约2.8mm，抗压强度为约120MPa至约300MPa，弯曲强度为约120MPa至约300MPa，抗拉强度为约90 MPa至约180MPa。 本发明还涉及物理钢化玻璃和太阳能电池板的制备。

公开(公告)号：US20120297830A1

公开(公告)日：2012-11-29

申请号：US13117510

申请日：2011-05-27

Applicant: Monika Backhaus-Ricoult ,  Christopher Raymond Glose

Inventor： Monika Backhaus-Ricoult ,  Christopher Raymond Glose

IPC: C03B27/012 ,  C03B25/00 ,  C03C14/00

CPC classification number: C23C2/28 ,  B01D46/2418 ,  B01J21/063 ,  B01J35/04 ,  B01J37/0215 ,  C03C10/0036 ,  C04B35/478 ,  C04B38/0006 ,  C04B41/009 ,  C04B41/5092 ,  C04B41/85 ,  C04B2111/00793 ,  C04B2235/3201 ,  C04B2235/3203 ,  C04B2235/3206 ,  C04B2235/3208 ,  C04B2235/3213 ,  C04B2235/3217 ,  C04B2235/3218 ,  C04B2235/322 ,  C04B2235/3234 ,  C04B2235/3236 ,  C04B2235/34 ,  C04B2235/3409 ,  C04B2235/3427 ,  C04B2235/3463 ,  C04B2235/3481 ,  C04B2235/36 ,  C04B2235/365 ,  C04B2235/447 ,  C04B2235/449 ,  C04B2235/5224 ,  C04B2235/85 ,  C04B2235/9607

Abstract: A method for improving the thermo-mechanical properties of an aluminum-titanate composite, the composite including at least one of strontium-feldspar, mullite, cordierite, or a combination thereof, including: combining a glass source and an aluminum-titanate source into a batch composition; and firing the combined batch composite composition to produce the aluminum-titanate composite. Another method for improving the thermo-mechanical properties of the composite dips a fired composite article into phosphoric acid, and then anneal the dipped composite article. The resulting composites have a thin glass film situated between the ceramic granules of the composite, which can arrest microcrack propagation.

Abstract translation: 一种提高钛酸铝复合材料的热机械性能的方法，所述复合材料包括锶长石，莫来石，堇青石或其组合中的至少一种，包括：将玻璃源和钛酸铝源组合成 批量成分; 并焙烧组合的批料复合组合物以制备钛酸铝复合材料。 改进复合材料的热机械性能的另一种方法将煅烧的复合制品浸入磷酸中，然后使浸渍的复合制品退火。 所得复合材料具有位于复合材料的陶瓷颗粒之间的薄玻璃膜，其可以阻止微裂纹传播。

公开(公告)号：US20120167630A1

公开(公告)日：2012-07-05

申请号：US13337670

申请日：2011-12-27

Applicant: Hoikwan LEE ,  Seo-Yeong CHO ,  Yoon Young KWON ,  Kyungwook PARK ,  Kyungmin YOON ,  Jongsung LEE ,  Jaeyoung CHOI ,  Gennady KIZEVICH

Inventor： Hoikwan LEE ,  Seo-Yeong CHO ,  Yoon Young KWON ,  Kyungwook PARK ,  Kyungmin YOON ,  Jongsung LEE ,  Jaeyoung CHOI ,  Gennady KIZEVICH

IPC: C03B27/012

CPC classification number: C03B29/08 ,  C03B27/0413 ,  C03B27/044 ,  C03B29/12 ,  C03B35/24 ,  C03C23/0005 ,  Y02P40/57

Abstract: An apparatus for manufacturing tempered glass. A transportation unit transports a glass substrate that is intended to be tempered. An ionizer ionizes alkali oxides in the glass substrate by radiating energy onto the glass substrate. A dielectric heating unit increases the temperature of the inner portion of the glass substrate in which the alkali oxides are ionized by the ionizer.

Abstract translation: 钢化玻璃制造装置。 运输单元运输旨在回火的玻璃基板。 电离器通过在玻璃基板上照射能量来离子化玻璃基板中的碱金属氧化物。 电介质加热单元增加由电离器离子化的碱性氧化物的玻璃基板内部的温度。

公开(公告)号：US08141387B2

公开(公告)日：2012-03-27

申请号：US12392408

申请日：2009-02-25

Applicant: Martin Letz ,  Mark J. Davis ,  Bernd Ruedinger ,  Bernd Hoppe ,  Bianca Schreder ,  Maria-Louisa Aigner ,  Daniela Seiler

Inventor： Martin Letz ,  Mark J. Davis ,  Bernd Ruedinger ,  Bernd Hoppe ,  Bianca Schreder ,  Maria-Louisa Aigner ,  Daniela Seiler

IPC: C03B32/02 ,  C03B27/012 ,  C03C1/00 ,  C03C10/00 ,  C03C10/02 ,  C01F11/02 ,  C01F5/02 ,  C01F5/14 ,  C01G23/00

CPC classification number: C03B32/02 ,  C03C3/062 ,  C03C10/0072 ,  H01G4/1227 ,  H01G4/129 ,  H01G4/30

Abstract: The process of making the glass-ceramic includes ceramicizing a starting glass at a heating or cooling rate during the ceramicization of at least 10 K/min, so that the glass-ceramic contains at least 50% by volume of ferroelectric crystallites with a maximum diameter of from 20 to 100 nm and not more than 10% by volume of nonferroelectric crystallitesis. The glass ceramic produced by the process contains no pores or not more than 0.01% by volume of the pores and a value of e′·V2max of the glass-ceramic is at least 20 (MV/cm)2, wherein e′ is the dielectric constant at 1 kHz and Vmax is the breakdown voltage per unit thickness. The ferroelectric crystallites preferably have a perovskite structure and are composed of substantially pure or doped BaTiO3 and/or BaTi2O5.

Abstract translation: 制造玻璃陶瓷的过程包括在至少10K /分钟的陶瓷化过程中以加热或冷却速率陶瓷起始玻璃，使得玻璃陶瓷含有至少50体积％的具有最大直径的铁电微晶 为20〜100nm且不大于10体积％的非铁电晶体。 通过该方法制造的玻璃陶瓷不含孔或不大于0.01体积％的孔，并且玻璃 - 陶瓷的e'·V2max的值为至少20（MV / cm）2，其中e'为 介电常数为1 kHz，Vmax为每单位厚度的击穿电压。 铁电晶体优选具有钙钛矿结构，并且由基本上纯的或掺杂的BaTiO 3和/或BaTi 2 O 5构成。