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    • 1. 发明专利
    • Thin leaf-like substance and method for producing it
    • 薄叶类物质及其生产方法
    • JP2012201753A
    • 2012-10-22
    • JP2011066369
    • 2011-03-24
    • Central Glass Co Ltdセントラル硝子株式会社
    • MURATA KEISUKEOGIYA YUKIHIRONAKAI NOBUYUKIKIDA TAKAHISA
    • C09C3/06C01B33/12C01G23/04C01G23/053C09D5/29C09D7/12C09D11/00C09D201/00
    • PROBLEM TO BE SOLVED: To provide a thin leaf-like substance without cracks and film exfoliation with a length of ≥100 nm on the film surface and covered with a rutile type titanium dioxide, and a method for producing it.SOLUTION: The method for producing the thin leaf-like substance covered with the titanium dioxide is characterized by including: a thin leaf-like base material preparing process of preparing the thin leaf-like base material including a rutile type tin oxide on the surface; a covering film-forming chemical liquid preparing process of preparing a covering film-forming chemical liquid by dispersing ultrafine particles in an acidic hydrolyzable titanium compound solution; a covering film depositing process in which the thin leaf-like base material is immersed into the covering film-forming chemical liquid and the rutile type titanium dioxide covering film including the ultrafine particles is deposited on the base material surface by neutralization reaction; and a drying process of drying the thin leaf-like base material deposited with the covering film.
    • 要解决的问题:为了提供薄膜状物质,在膜表面上没有裂纹和膜剥离长度≥100nm,并被金红石型二氧化钛覆盖,以及其制造方法。 解决方案:用二氧化钛覆盖的薄叶状物质的制造方法的特征在于包括:薄叶状基材的制备方法,其制备包含金红石型氧化锡的薄叶状基材, 表面 一种通过将超细颗粒分散在酸性可水解的钛化合物溶液中来制备覆盖膜形成化学液体的覆盖成膜化学液体制备方法; 将薄叶状基材浸渍在覆盖膜形成用液体中的覆盖膜沉积工序和由超微粒子构成的金红石型二氧化钛覆盖膜通过中和反应沉积在基材表面上; 以及干燥沉积有覆盖膜的薄叶状基材的干燥过程。 版权所有(C)2013,JPO&INPIT
    • 2. 发明专利
    • Method for producing flake-shaped glass object
    • 用于生产塑胶玻璃物体的方法
    • JP2012036057A
    • 2012-02-23
    • JP2010179991
    • 2010-08-11
    • Central Glass Co Ltdセントラル硝子株式会社
    • NAKAI NOBUYUKIKIDA TAKAHISAOGIYA YUKIHIROMURATA KEISUKE
    • C03B37/005
    • PROBLEM TO BE SOLVED: To provide a method for producing a flake-shaped glass object by which the flake-shaped glass object having a smooth surface and having a desired thickness of less than 4 μm is produced by a means simpler than that of a conventional technique.SOLUTION: The method for producing a flake-shaped glass object includes: a step A to form a first hollow object 6 composed of molten glass 9 by introducing a gas into the molten glass 9; a step B to bring the first hollow object 6 and at least one ring 1 for decreasing wall thickness into contact with each other; a step C to extrude the molten glass 9 in a section surrounded by points of contact with the ring 1 for decreasing wall thickness by introducing the gas into the first hollow object 6, and to make the molten glass 9 pass through the inner wall of the ring 1 to thereby form a second hollow object 7; a step D to crush the second hollow object 7 and to form the flake-shaped glass object; and a step E to recover the flake-shaped glass object.
    • 要解决的问题:提供一种片状玻璃物体的制造方法,通过该方法比通过简单的方法产生具有平滑表面并且具有小于4μm的所需厚度的片状玻璃物体的方法 的常规技术。 解决方案:片状玻璃制品的制造方法包括:通过将气体引入熔融玻璃9中而形成由熔融玻璃9构成的第一中空物体6的工序A; 使第一中空物体6和至少一个用于减小壁厚的环1彼此接触的步骤B; 步骤C,通过将气体引入第一中空物体6中,在与环1的接触点包围的部分中挤出熔融玻璃9,以通过将气体引入第一中空物体6,并使熔融玻璃9通过 从而形成第二中空物体7; 步骤D压碎第二中空物体7并形成片状玻璃物体; 以及回收片状玻璃物体的步骤E. 版权所有(C)2012,JPO&INPIT
    • 6. 发明专利
    • Method for producing flaky glass body
    • 生产玻璃体的方法
    • JP2010248012A
    • 2010-11-04
    • JP2009096722
    • 2009-04-13
    • Central Glass Co Ltdセントラル硝子株式会社
    • NAKAI NOBUYUKIOGIYA YUKIHIROFUJIURA NORIKAZUKIDA TAKAHISA
    • C03B37/005
    • PROBLEM TO BE SOLVED: To provide a method for producing a flaky glass body having a flat and smooth surface without reducing productivity comparing with a conventional technology.
      SOLUTION: The method for producing the flaky glass body is characterized by including such producing steps as a step to form the liquid surface of molten glass at the outflow port of the molten glass, a step to form hollow glass with an air layer inside by introducing a gas in the vicinity of the liquid surface of the molten glass and a step to crush the formed hollow glass. Furthermore, the crushing of the hollow glass by striking a gas is characterized in the step to crush the hollow glass.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种制造具有平坦光滑表面的片状玻璃体的方法,而不会降低生产率,与常规技术相比。 解决方案:制造片状玻璃体的方法的特征在于包括以下步骤:在熔融玻璃的流出口处形成熔融玻璃的液面的步骤,形成具有空气层的中空玻璃的步骤 通过在熔融玻璃的液面附近引入气体和使形成的中空玻璃粉碎的步骤。 此外,通过冲击气体破碎中空玻璃的特征在于粉碎中空玻璃的步骤。 版权所有(C)2011,JPO&INPIT
    • 7. 发明专利
    • Method for producing glass flake
    • 生产玻璃花瓣的方法
    • JP2010229019A
    • 2010-10-14
    • JP2010036575
    • 2010-02-22
    • Central Glass Co Ltdセントラル硝子株式会社
    • NAKAI NOBUYUKIKIDA TAKAHISAOGIYA YUKIHIROFUJIURA NORIKAZUMURATA KEISUKE
    • C03B37/005
    • C03B37/005
    • PROBLEM TO BE SOLVED: To provide a method for producing glass flakes having a smooth surface and a desired thickness by a simple means compared to the prior arts. SOLUTION: The method for producing glass flakes comprises: a step A for introducing a gas from a nozzle 3 disposed in a molten glass 1 into the molten glass 1 so as to form a bubble adhered to the tip of the nozzle 3, provided in the molten glass 1; a step B for continuing to introduce the gas from the nozzle 3 into the bubble formed in the molten glass 1 in order to increase the volume of the bubble and to allow the bubble to reach the liquid surface, so that a portion of the bubble that has reached the liquid surface pushes out the molten glass at the liquid surface in higher direction than the liquid surface level of the molten glass 1, forming a dome-shaped body, wherein a portion 6' of the bubble is included in the molten glass 1, on the liquid surface of the molten glass 1; a step C for bursting the dome-shaped body 7 to form glass flakes; and a step D for sucking and recovering the glass flakes. COPYRIGHT: (C)2011,JPO&INPIT
    • 解决的问题:提供一种与现有技术相比,通过简单的手段提供具有光滑表面和所需厚度的玻璃鳞片的方法。 解决方案:用于制造玻璃薄片的方法包括:步骤A,用于将设置在熔融玻璃1中的喷嘴3的气体引入熔融玻璃1中,以形成粘附到喷嘴3的顶端的气泡, 设置在熔融玻璃1中; 用于继续将气体从喷嘴3引入形成在熔融玻璃1中的气泡中的步骤B,以增加气泡的体积并允许气泡到达液面,使得气泡的一部分 到达液面时,液面上的熔融玻璃比熔融玻璃1的液面高的方向推出,形成圆顶状体,其中,熔融玻璃1中包含气泡部6' 在熔融玻璃1的液面上; 用于使穹顶形体7破裂以形成玻璃片的步骤C; 以及用于吸收和回收玻璃片的步骤D. 版权所有(C)2011,JPO&INPIT
    • 9. 发明专利
    • Method for producing flaky glass
    • 生产玻璃玻璃的方法
    • JP2012126588A
    • 2012-07-05
    • JP2010277502
    • 2010-12-13
    • Central Glass Co Ltdセントラル硝子株式会社
    • NAKAI NOBUYUKIKIDA TAKAHISAOGIYA YUKIHIROMURATA KEISUKE
    • C03B37/005
    • PROBLEM TO BE SOLVED: To provide a method for producing flaky glass with uniform thickness.SOLUTION: The method for producing flaky glass includes: a supply process of supplying a glass melt to a turning plate-shaped, cup-shaped, or sphere-shaped first diffusion part surface; a first diffusion process of drawing the glass melt in the radial outward direction from the circumferential edge of the first diffusion part surface by centrifugal force; a second diffusion process of bringing the glass melt drawn in the first diffusion process into contact with the inside wall surface of a turning cylindrical second diffusion part, which is disposed to surround the first diffusion part, to draw the glass melt in the radial outward direction from the lower end of the second diffusion part inside wall surface by centrifugal and gravity force; and a solidifying and crushing process, wherein the glass melt drawn in the second diffusion process is moved in the radial direction by air flow passing between a pair of plates, which are disposed to surround the lower end of the second diffusion part, so that the glass melt enters a clearance between the plates, and consequently, the glass melt is drawn in the radial direction while being kept flat and crushed into flakes during its solidification process.
    • 要解决的问题:提供一种制造厚度均匀的片状玻璃的方法。 解决方案:制造片状玻璃的方法包括:将玻璃熔体供给到转动板状,杯状或球形的第一扩散部件表面的供给工序; 通过离心力从第一扩散部分表面的圆周边缘沿径向向外的方向拉伸玻璃熔体的第一扩散过程; 将在第一扩散处理中吸取的玻璃熔体与被设置为围绕第一扩散部的转动圆筒状的第二扩散部的内壁面接触的第二扩散处理将玻璃熔体沿径向向外的方向 通过离心和重力从第二扩散部分的内壁表面的下端开始; 以及固化和粉碎过程,其中在第二扩散过程中拉制的玻璃熔体在通过一对板之间的空气流在径向方向上移动,所述一对板被设置成围绕第二扩散部分的下端,使得 玻璃熔体进入板之间的间隙,因此,玻璃熔体在径向方向被拉伸,同时保持平坦并在其凝固过程中被粉碎成薄片。 版权所有(C)2012,JPO&INPIT