公开(公告)号：WO0202320B1

公开(公告)日：2002-03-21

申请号：PCT/US0120757

申请日：2001-06-27

Applicant: MICROCOATING TECHNOLOGIES INC ,  DESHPANDE GIRISH ,  HUNT ANDREW TYE ,  SHANMUGHAM SUBRAMANIAM ,  YURTKURAN ERIC J ,  POLLEY TODD ,  OLJACA MIODRAG ,  HWANG TZYY JIUAN JAN ,  PODA AIMEE ,  NEUMAN GEORGE ANDREW

Inventor： DESHPANDE GIRISH ,  HUNT ANDREW TYE ,  SHANMUGHAM SUBRAMANIAM ,  YURTKURAN ERIC J ,  POLLEY TODD ,  OLJACA MIODRAG ,  HWANG TZYY-JIUAN JAN ,  PODA AIMEE ,  NEUMAN GEORGE ANDREW

IPC: B05D1/08 ,  B05D1/34 ,  B05D3/02 ,  B05D3/08 ,  C03C17/00 ,  C03C17/32 ,  C03C17/42 ,  C09D7/12 ,  C09D183/04 ,  C23C4/12 ,  C23C26/00 ,  B32B27/06 ,  B32B27/08 ,  B32B27/28 ,  B32B27/30 ,  B32B27/32 ,  B32B27/34 ,  B32B27/36 ,  B32B27/38 ,  B32B27/40 ,  C23C4/04 ,  C23C16/00

CPC classification number: C03C17/001 ,  B05D1/08 ,  B05D1/34 ,  B05D3/0254 ,  B05D3/08 ,  B05D2518/10 ,  C03C17/007 ,  C03C17/009 ,  C03C17/32 ,  C03C17/42 ,  C03C2217/425 ,  C03C2217/445 ,  C03C2217/475 ,  C08K3/22 ,  C08K3/346 ,  C09D7/61 ,  C09D183/04 ,  C23C4/12 ,  C23C4/123 ,  C23C26/00 ,  Y10T428/12583 ,  Y10T428/31522

Abstract: Coatings, particularly thin films, of polymeric material are produced in accordance with the invention by applying a finely divided aerosol (N) of polymer solution to a substrate (30) and substantially simultaneously applying an energy source (38) to the applied solution to apply the solution. In cases where the polymer is cross-linking, the energy source assists in cross-linking of the polymer. The preferred energy source is a flame (38) that may optionally or desirably deposit material along with the polymer spray. One particular aspect of the invention is directed to production of polyimide films. In accordance with another aspect of the invention, the co-deposition process is used to provide thin polysiloxane coatings on glass and other substrates.

Abstract translation: 根据本发明，通过将细分散的气溶胶（N）聚合物溶液施加到基底（30）并基本上同时向所施加的溶液施加能量源（38）来施加聚合物材料的涂层，特别是薄膜， 解决方案。 在聚合物交联的情况下，能量源有助于聚合物的交联。 优选的能源是可以任选地或期望地与聚合物喷雾一起沉积物质的火焰（38）。 本发明的一个特定方面涉及聚酰亚胺膜的制备。 根据本发明的另一方面，共沉积方法用于在玻璃和其它基底上提供薄的聚硅氧烷涂层。

公开(公告)号：AU7163801A

公开(公告)日：2002-01-14

申请号：AU7163801

申请日：2001-06-27

Applicant: MICROCOATING TECHNOLOGIES INC

Inventor： DESHPANDE GIRISH ,  HUNT ANDREW TYE ,  SHANMUGHAM SUBRAMANIAM ,  YURTKURAN ERIC J ,  POLLEY TODD ,  OLJACA MIODRAG ,  HWANG TZYY-JIUAN JAN ,  PODA AIMEE ,  NEUMAN GEORGE ANDREW

IPC: B05D1/08 ,  B05D1/34 ,  B05D3/02 ,  B05D3/08 ,  C03C17/00 ,  C03C17/32 ,  C03C17/42 ,  C09D7/12 ,  C09D183/04 ,  C23C4/12 ,  C23C26/00 ,  B32B27/06 ,  B32B27/08 ,  B32B27/28 ,  B32B27/30 ,  B32B27/32 ,  B32B27/34 ,  B32B27/36 ,  B32B27/38 ,  B32B27/40 ,  C23C4/04 ,  C23C16/00

Abstract: A coherent material is formed on a substrate ( 10 ) by providing a precursor suspension ( 14 ) in which particulates are suspended in a carrier fluid, and directing the precursor suspension ( 14 ) at the substrate ( 10 ) from a first source ( 12 ). Generally contemporaneously with application of the deposited precursor suspension ( 14 ) to the surface, hot gases, e.g. hot gases produced by a flame ( 16 ), are directed at the substrate ( 10 ) from a remote second source ( 18 ) to fuse the particulates into the coherent material.

公开(公告)号：WO0102622A3

公开(公告)日：2001-05-25

申请号：PCT/US0018163

申请日：2000-06-29

Applicant: MICROCOATING TECHNOLOGIES INC ,  HUNT ANDREW TYE ,  MCENTYRE JOHN ERIC ,  NEUMAN GEORGE ANDREW ,  VINSON MATTHEW SCOTT

Inventor： HUNT ANDREW TYE ,  MCENTYRE JOHN ERIC ,  NEUMAN GEORGE ANDREW ,  VINSON MATTHEW SCOTT

IPC: C03B29/08 ,  C03C17/00 ,  C03C17/245 ,  C23C16/453 ,  C23C16/46 ,  C23C16/54 ,  H05K3/12 ,  H05K3/14 ,  C23C16/513

CPC classification number: C03B29/08 ,  C03C17/002 ,  C03C17/245 ,  C03C17/2453 ,  C03C2217/211 ,  C03C2217/216 ,  C03C2217/228 ,  C03C2217/231 ,  C03C2217/241 ,  C03C2218/152 ,  C23C16/453 ,  C23C16/46 ,  C23C16/54 ,  H05K3/12 ,  H05K3/146

Abstract: Methods for producing coatings on a glass substrate using combined chemical vapor deposition or other heat concentrated deposition (CHD) techniques. The term "glass" in this context is defined as those materials that crack, break or are otherwise damaged prior to plastic deformation of the material. In combustion chemical vapor deposition CCVD, a reagent and a carrier solution are mixed together to form a reagent mixture. The reagent mixture is then ignited to create a flame (14, 16), or alternatively, the reagent mixture may be fed to a plasma torch or other heat source. The combustion source may vaporize at least part of the reagent, the vapor phase of the reagent contacting the surface of the substrate (A) to be coated. In this manner, a film or coating is formed on the glass substrate (A). In some of the disclosed methods, the glass substrate (A) may be preheated, to avoid differential heating of the glass by the combustion source. Various methods of reducing the differential heating are disclosed. This differential heating may cause thermal shock or breakage of the glass substrate (A).

Abstract translation: 使用组合化学气相沉积或其他热浓缩沉积（CHD）技术在玻璃基板上生产涂层的方法。 在本文中术语“玻璃”被定义为在材料的塑性变形之前破裂，断裂或以其他方式损坏的材料。 在燃烧化学气相沉积CCVD中，将试剂和载体溶液混合在一起以形成试剂混合物。 然后将试剂混合物点燃以产生火焰（14,16），或者可将试剂混合物送入等离子体焰炬或其它热源。 燃烧源可以蒸发至少部分试剂，试剂的气相与待涂覆的基材（A）的表面接触。 以这种方式，在玻璃基板（A）上形成膜或涂层。 在所公开的一些方法中，玻璃基板（A）可以被预热，以避免燃烧源对玻璃的不同的加热。 公开了减少差动加热的各种方法。 该差分加热可能导致玻璃基板（A）的热冲击或断裂。

公开(公告)号：AU5783600A

公开(公告)日：2001-01-22

申请号：AU5783600

申请日：2000-06-29

Applicant: MICROCOATING TECHNOLOGIES INC

Inventor： HUNT ANDREW TYE ,  MCENTYRE JOHN ERIC ,  NEUMAN GEORGE ANDREW ,  VINSON MATTHEW SCOTT

IPC: C03B29/08 ,  C03C17/00 ,  C03C17/245 ,  C23C16/453 ,  C23C16/46 ,  C23C16/54 ,  H05K3/12 ,  H05K3/14 ,  C23C16/513

公开(公告)号：EP1301341A4

公开(公告)日：2004-07-14

申请号：EP01950670

申请日：2001-06-27

Applicant: MICROCOATING TECHNOLOGIES INC

Inventor： DESHPANDE GIRISH ,  HUNT ANDREW TYE ,  SHANMUGHAM SUBRAMANIAM ,  YURTKURAN ERIC J ,  POLLEY TODD ,  OLJACA MIODRAG ,  HWANG TZYY-JIUAN JAN ,  PODA AIMEE ,  NEUMAN GEORGE ANDREW

IPC: B05D1/08 ,  B05D1/34 ,  B05D3/02 ,  B05D3/08 ,  C03C17/00 ,  C03C17/32 ,  C03C17/42 ,  C09D7/12 ,  C09D183/04 ,  C23C4/12 ,  C23C26/00 ,  B32B27/06 ,  B32B27/08 ,  B32B27/28 ,  B32B27/30 ,  B32B27/32 ,  B32B27/34 ,  B32B27/36 ,  B32B27/38 ,  B32B27/40 ,  C23C4/04 ,  C23C16/00

CPC classification number: C03C17/001 ,  B05D1/08 ,  B05D1/34 ,  B05D3/0254 ,  B05D3/08 ,  B05D2518/10 ,  C03C17/007 ,  C03C17/009 ,  C03C17/32 ,  C03C17/42 ,  C03C2217/425 ,  C03C2217/445 ,  C03C2217/475 ,  C08K3/22 ,  C08K3/346 ,  C09D7/61 ,  C09D183/04 ,  C23C4/12 ,  C23C4/123 ,  C23C26/00 ,  Y10T428/12583 ,  Y10T428/31522

Abstract: A coherent material is formed on a substrate ( 10 ) by providing a precursor suspension ( 14 ) in which particulates are suspended in a carrier fluid, and directing the precursor suspension ( 14 ) at the substrate ( 10 ) from a first source ( 12 ). Generally contemporaneously with application of the deposited precursor suspension ( 14 ) to the surface, hot gases, e.g. hot gases produced by a flame ( 16 ), are directed at the substrate ( 10 ) from a remote second source ( 18 ) to fuse the particulates into the coherent material.