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    • 1. 发明申请
    • Method of coating aluminum and aluminum alloy substrates and coated articles
    • 涂覆铝和铝合金基材和涂层制品的方法
    • US20030070730A1
    • 2003-04-17
    • US09974458
    • 2001-10-10
    • Topy Industries, Limited
    • Toru ShimizuTakayuki SatoTatsuya OguriKeiji MaetsujiKazuo Nobe
    • C23C028/00
    • B05D7/51B05D2202/25C23C22/361
    • The present invention provides a method of coating aluminum and aluminum alloy substrates by which not only a corrosion resistance comparable or even superior to that afforded by chromate treatment can be imparted but also the adhesion to the coating film can be improved, while the luster of aluminum is fully retained, notwithstanding the use of a chromium-free treating solution, as well as a coated article with the coated surface according to the above method having a metallic luster. The present invention provides a method of coating aluminum and aluminum alloy substrates which comprises treating an aluminum or aluminum alloy substrate with an acidic solution containing sulfuric acid and 0.2 to 0.4 g/L of a ferric ion and having a pH value of 0.6 to 2.0, subjecting the same to chemical conversion treatment with an acidic coat-forming agent containing 0.01 to 0.125 g/L of a zirconium or titanium ion, 0.01 to 1.0 g/L of a phosphate ion, and 0.01 to 0.5 g/L of a fluoride ion and having a pH value of 1.5 to 4.0, followed by coating.
    • 本发明提供了一种涂覆铝和铝合金基材的方法,其不仅可以赋予与铬酸盐处理相当或甚至优异的耐腐蚀性,而且可以提高对涂膜的粘附性,同时铝的光泽 完全保留,尽管使用无铬处理溶液,以及具有根据上述方法的具有金属光泽的涂覆表面的涂布制品。 本发明提供了一种铝和铝合金基板的涂覆方法,其包括用含硫酸的酸性溶液和0.2〜0.4g / L的铁离子处理铝或铝合金基板,其pH值为0.6〜2.0, 使用含有0.01〜0.125g / L的锆或钛离子,0.01〜1.0g / L磷酸根离子和0.01〜0.5g / L氟离子的酸性成膜剂进行化学转化处理 pH值为1.5〜4.0,然后进行涂布。
    • 2. 发明申请
    • Process for multi-layer coating
    • 多层涂层工艺
    • US20020166770A1
    • 2002-11-14
    • US09852379
    • 2001-05-10
    • Matthias KimpelMartin WulfOliver Reis
    • C25D013/06C23C028/00C25D013/12
    • B05D7/546B05D1/007B05D3/0263C25D13/00
    • A process for the production of a multi-layer coating, wherein a primer layer which is electrically conductive in the at least partially cured state is applied by electrodeposition from an electrodeposition coating agent (I) to an electrically conductive three-dimensional object, at least partially cured exclusively by the action of near infra-red radiation substantially only on the surfaces of the object exposed to the radiation, and an additional coating layer is applied by electrodeposition from an electrodeposition coating agent (II) which is different from electrodeposition coating agent (I), and then this additional coating layer as well as completely uncured or incompletely cured area parts of the primer layer produced from electrodeposition coating agent (I) are cured.
    • 一种生产多层涂层的方法,其中在至少部分固化的状态下导电的底漆层通过电沉积从电沉积涂覆剂(I)电沉积到导电三维物体,至少 仅基本上仅在暴露于辐射物体的表面上的近红外辐射的作用部分地固化,并且通过电沉积从与电沉积涂覆剂不同的电沉积涂覆剂(II)施加另外的涂层( I),然后固化由电沉积涂覆剂(I)制备的该附加涂层以及底漆层的完全未固化或不完全固化的区域部分。
    • 3. 发明申请
    • Coating film-forming method
    • 涂膜成型方法
    • US20020043464A1
    • 2002-04-18
    • US09934565
    • 2001-08-23
    • Shinji MiyatakeAkira TominagaHidehiko Haneishi
    • C25D013/06C25D013/12C23C028/00
    • B05D7/577B05D5/068B05D7/587
    • A coating film-forming method comprising a first step which comprises coating a cationic eletrodeposition coating composition (A) containing an electrically conducting agent, followed by washing with water and heat curing and drying to form a cured cationic electrodeposition coating film; a second step which comprises coating such an anionic electrodeposition coating composition (B) that a coating film formed therefrom has a chromatic color or a white color as an achromatic color onto the cured cationic electrodeposition coating film, followed by washing with water, and removing water by preheating or air blowing to form a non-cured anionic electrodeposition coating film; and a third step which comprises coating a topcoating composition (C) thereonto to form a non-cured topcoating film, and heat curing and drying a resulting laminated coating film simultaneously.
    • 一种涂膜形成方法,包括第一步骤,包括涂覆含有导电剂的阳离子电沉积涂料组合物(A),随后用水洗涤并热固化和干燥以形成固化的阳离子电沉积涂膜; 第二步,包括将由阴离子电沉积涂料组合物(B)涂覆的阴离子电沉积涂料组合物(B)涂覆在固化的阳离子电沉积涂膜上,作为无色的彩色或白色,然后用水洗涤,除去水 通过预热或吹风来形成未固化的阴离子电沉积涂膜; 和第三步骤,其包括在其上涂覆表面涂层组合物(C)以形成未固化的表面涂膜,并同时热固化和干燥所得到的层压涂膜。
    • 4. 发明申请
    • METHODS OF FORMING A FACE PLATE ASSEMBLY OF A COLOR DISPLAY
    • 形成彩色显示器的面板组件的方法
    • US20020003090A1
    • 2002-01-10
    • US09398835
    • 1999-09-16
    • JEFFERSON O NEMELKA
    • C23C028/00
    • C23C26/00
    • Methods of forming face plate assemblies are described. In one implementation, a substrate is patterned with photoresist and a first phosphor-comprising material is formed over first surface areas of the substrate. The photoresist is stripped leaving some of the first phosphor-comprising material over substrate areas other than the first areas. Photoresist is again formed over the substrate and processed to expose second substrate areas which are different from the first substrate areas. In a preferred aspect, processing the photoresist comprises using a heated aqueous developing solution comprising an acid, e.g. lactic acid, effective to dislodge and remove first phosphor-comprising material from beneath the developed photoresist. A second phosphor-comprising material is formed over the substrate and the exposed second areas, with trace deposits being left over other substrate areas. The photoresist is subsequently stripped leaving some of the second phosphor-comprising material over substrate areas other than the first and second areas. Photoresist is again formed over the substrate and processed to expose third substrate areas which are different from the first and second areas. In a preferred aspect, processing the photoresist comprises using a heated aqueous developing solution comprising an acid, e.g. lactic acid, effective to dislodge and remove first and second phosphor-comprising material from beneath the removed photoresist. A third phosphor-comprising material is formed over the substrate and the exposed third areas.
    • 描述形成面板组件的方法。 在一个实施方案中,用光致抗蚀剂对衬底进行图案化,并且在衬底的第一表面区域上形成第一含磷光体材料。 剥离光致抗蚀剂,留下除了第一区域之外的衬底区域上的一些第一磷光体材料。 光致抗蚀剂再次形成在衬底上并被处理以暴露与第一衬底区域不同的第二衬底区域。 在优选的方面,处理光致抗蚀剂包括使用包含酸的加热的含水显影液。 乳酸,有效地从显影的光致抗蚀剂下方移出和去除第一含磷光体的材料。 第二含磷光体的材料形成在衬底和暴露的第二区域上,其中微量沉积物留在其它衬底区域上。 随后剥离光致抗蚀剂,在除了第一和第二区域之外的衬底区域上留下一些第二磷光体材料。 光致抗蚀剂再次形成在衬底上并被处理以暴露不同于第一和第二区域的第三衬底区域。 在优选的方面,处理光致抗蚀剂包括使用包含酸的加热的含水显影液。 乳酸,有效地从去除的光致抗蚀剂下面移出并除去第一和第二含磷光体材料。 第三种磷光体材料形成在衬底和暴露的第三区域上。
    • 6. 发明申请
    • Methods of forming a face plate assembly of a color display
    • US20010001193A1
    • 2001-05-17
    • US09760191
    • 2001-01-12
    • Jefferson O. Nemelka
    • C23C028/00
    • C23C26/00
    • Methods of forming face plate assemblies are described. In one implementation, a substrate is patterned with photoresist and a first phosphor-comprising material is formed over first surface areas of the substrate. The photoresist is stripped leaving some of the first phosphor-comprising material over substrate areas other than the first areas. Photoresist is again formed over the substrate and processed to expose second substrate areas which are different from the first substrate areas. In a preferred aspect, processing the photoresist comprises using a heated aqueous developing solution comprising an acid, e.g. lactic acid, effective to dislodge and remove first phosphor-comprising material from beneath the developed photoresist. A second phosphor-comprising material is formed over the substrate and the exposed second areas, with trace deposits being left over other substrate areas. The photoresist is subsequently stripped leaving some of the second phosphor-comprising material over substrate areas other than the first and second areas. Photoresist is again formed over the substrate and processed to expose third substrate areas which are different from the first and second areas. In a preferred aspect, processing the photoresist comprises using a heated aqueous developing solution comprising an acid, e.g. lactic acid, effective to dislodge and remove first and second phosphor-comprising material from beneath the removed photoresist. A third phosphor-comprising material is formed over the substrate and the exposed third areas.
    • 10. 发明申请
    • Composition and method for metal coloring process
    • 金属着色工艺的组成和方法
    • US20030022007A1
    • 2003-01-30
    • US10217109
    • 2002-08-09
    • Keith N. RavenscroftWilliam V. Block
    • B32B015/04C23C028/00
    • C23C28/044C23C22/83C23C22/84C23C28/00
    • This invention is a method for forming a chemical conversion coating on ferrous metal substrates, the chemical solutions used in the coating and the articles coated thereby. By modifying and combining the features of two existing, but heretofore unrelated, coating technologies, a hybrid conversion coating is formed. Specifically, a molecular iron/oxygen-enriched intermediate coating, such as a dicarboxylate or phosphate, is applied to a ferrous substrate by a first oxidation. The intermediate coating pre-conditions the substrate to form a surface rich in molecular iron and oxygen in a form easily accessible for further reaction. This oxidation procedure is followed by a coloring procedure using a heated (about 120-220 F) oxidizing solution containing alkali metal hydroxide, alkali metal nitrate, alkali metal nitrite or mixtures thereof, which reacts with the iron and oxygen enriched intermediate coating to form magnetite (Fe3O4). The result is the formation of a brown or black finish under much more favorable, milder and safer conditions than previously seen with conventional caustic blackening processes, by virtue of the chemical reaction between the intermediate coating and the second oxidation solution. When sealed with an appropriate rust preventative topcoat, the final result is an ultra-thin, attractive and protective finish applied through simple immersion techniques. The finish is a final protective coating on a fabricated metal article and also affords a degree of lubricity to aid assembly, break-in of sliding surfaces or provide anti-galling protection. The finish also provides an adherent base for paint finishes.
    • 本发明是一种用于在黑色金属基材上形成化学转化涂层的方法,用于涂层的化学溶液和由此涂覆的制品。 通过修改和组合两个现有的但迄今不相关的涂覆技术的特征,形成了混合转化涂层。 具体地说,通过第一次氧化将铁分子铁/富氧中间涂层如二羧酸盐或磷酸盐施加到铁基质上。 中间涂层预处理基底以形成富含分子铁和氧的表面,其易于进一步反应。 该氧化方法之后是使用含有碱金属氢氧化物,碱金属硝酸盐,碱金属亚硝酸盐或其混合物的加热(约120-220°F)氧化溶液的着色程序,其与富含铁和富氧中间体涂层反应形成磁铁矿 (Fe3O4)。 结果是由于中间涂层和第二氧化溶液之间的化学反应,在比现有的苛性碱黑化工艺更好的,温和和更安全的条件下形成棕色或黑色整理。 当用适当的防锈面漆密封时,最终的结果是通过简单的浸渍技术施加的超薄,有吸引力和保护性的涂层。 涂饰是在金属制品上的最终保护涂层,并且还提供一定程度的润滑性,以有助于组装,滑入表面的插入或提供防磨损保护。 完成也为油漆装饰提供了坚固的基础。