公开(公告)号：US20160122236A1

公开(公告)日：2016-05-05

申请号：US14894418

申请日：2014-05-28

Applicant: AGC GLASS EUROPE

Inventor： Stijn MAHIEU ,  Anne-Christine BAUDOUIN ,  Marc HAUPTMANN ,  Jean-Michel DEPAUW ,  Michael PURWINS ,  Eric MATHIEU ,  Hansjoerg WEIS

IPC: C03C17/36

CPC classification number: C03C17/366 ,  C03C17/3618 ,  C03C17/3626 ,  C03C17/3639 ,  C03C17/3642 ,  C03C17/3644 ,  C03C17/3681

Abstract: The invention relates to low-emissivity and anti-solar glazing systems that change only very little in properties when they are subjected to a heat treatment. They comprise a stack of thin layers comprising an alternating arrangement of n infrared radiation reflecting functional layers and n+ 1 dielectric coatings, characterised in that: (i) the first dielectric coating comprises a layer made from an oxide in contact with the substrate, (ii) the portion of the coating stack between two functional layers comprises, in order: a barrier layer, a zinc oxide-based layer, a layer of zinc-tin mixed oxide, a nucleation layer, and (iii) the last dielectric coating comprises a layer made from an oxide other than silicon oxide with a thickness greater than 3 nm overlaid with a layer made from a silicon nitride or a silicon oxide with a thickness greater than 10 nm superposed thereon.

Abstract translation: 本发明涉及低辐射率和抗太阳能玻璃窗系统，当它们进行热处理时其性能变化很小。 它们包括一叠薄层，其包括反射功能层和n + 1电介质涂层的n个红外辐射的交替布置，其特征在于：（i）第一介电涂层包括由与基底接触的氧化物制成的层，（ii ）涂层叠层在两个功能层之间的部分按顺序包括：阻挡层，氧化锌基层，锌 - 锡混合氧化物层，成核层，和（iii）最后的电介质涂层包括 由厚度大于3nm的氧化硅以外的氧化物制成的层与由其上叠加厚度大于10nm的氮化硅或氧化硅制成的层重叠。

公开(公告)号：US20240117563A1

公开(公告)日：2024-04-11

申请号：US18264702

申请日：2022-02-07

Applicant: AGC GLASS EUROPE

Inventor： Hansjoerg WEIS ,  Jérôme JOLIBOIS

IPC: D06N3/00 ,  C23C16/02 ,  C23C16/04 ,  C23C16/503 ,  D06M10/02 ,  D06M10/10 ,  D06M15/277 ,  D06N3/04

CPC classification number: D06N3/0084 ,  C23C16/02 ,  C23C16/045 ,  C23C16/503 ,  D06M10/025 ,  D06M10/10 ,  D06M15/277 ,  D06N3/0011 ,  D06N3/0086 ,  D06N3/047 ,  D06M2101/32 ,  D06N2201/02 ,  D06N2207/14 ,  D06N2209/142

Abstract: A process for producing a fluorinated polymer coating on a fabric substrate, including providing a first plasma source containing at least one pair of hollow-cathode plasma generating electrodes, injecting a first plasma generating gas in the at least one pair of hollow-cathode plasma generating electrodes, applying a first electrical power to the first plasma source, injecting a fluorinated monomer with an inert carrier gas between the at least one pair of hollow-cathode plasma generating electrodes, and depositing the fluorinated polymer coating on a surface of the fabric substrate by exposing the fabric substrate to the plasma of the first plasma source. The fluorinated polymer coating is water repellent.