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    • 2. 发明申请
    • Coating Material for Protecting Metals, Especially Steel, From Corrosion and/or Scaling, Method for Coating Metals and Metal Element
    • 用于保护金属,特别是钢,腐蚀和/或定标的涂料,用于涂覆金属和金属元素的方法
    • US20100098956A1
    • 2010-04-22
    • US12086377
    • 2006-12-07
    • Stefan SepeurStefan GoedickeNicole Reuter
    • Stefan SepeurStefan GoedickeNicole Reuter
    • H01B1/04H01B1/02B05D3/02B05D3/06B32B15/04
    • C09D5/24B05D3/0254B05D2202/10B05D2701/40C09D5/084C09D5/10C23C18/122C23C18/1254C23C18/127Y10T428/31678
    • The invention relates to a coating material for protecting metals, especially steel, from corrosion and/or scaling, to a method for coating metals and to a metal element. The aim of the invention is to provide a coating material that protects steel from corrosion and/or scaling and that can be welded after heat treatment of the coated steel at temperatures of more than 800° C. For this purpose, substances are provided that render the applied coating material suitable for welding, especially for spot welding. The coating material can be applied by wet chemical methods, it changes its structure when subjected to high temperature processes of more than 600° C. and is suitable as a primer for additional coating materials. It was surprisingly found that when a suitable binder including a suitable filler is used during the high temperature treatment of a curing process, the coating materials of the invention change in such a manner that electrically conducting reactive layers are formed that allow welding and especially spot welding together with the metal substrate even after treatment at temperatures of more than 800° C.
    • 本发明涉及一种用于保护金属,特别是钢的腐蚀和/或结垢的涂料,以及用于涂覆金属和金属元素的方法。 本发明的目的是提供一种保护钢免受腐蚀和/或结垢的涂层材料,并且可以在超过800℃的温度下对涂覆的钢进行热处理后进行焊接。为此目的,提供呈现 适用于焊接的涂层材料,特别适用于点焊。 涂层材料可以通过湿法化学方法施加,当其经受高于600℃的高温工艺时,其结构改变,并且适合作为附加涂料的底漆。 令人惊奇地发现,当在固化过程的高温处理期间使用包括合适填料的合适的粘合剂时,本发明的涂层材料以这样的方式改变,使得形成导电反应层,其允许焊接,特别是点焊 即使在高于800℃的温度下处理也与金属基材一起
    • 4. 发明申请
    • METHOD FOR PRODUCING DEFORMABLE CORROSION PROTECTION LAYERS ON METAL SURFACES
    • 在金属表面上生产可变腐蚀保护层的方法
    • US20120009340A1
    • 2012-01-12
    • US12998405
    • 2009-09-17
    • Stefan SepeurStefan GoedickeChristine BreyerChristina Tasch
    • Stefan SepeurStefan GoedickeChristine BreyerChristina Tasch
    • B05D5/00B05D1/18C25D15/00B05D1/28C23C16/44B05D1/12B05D3/12
    • C23C26/00C09D5/10C23C22/02C23C22/74C23C2222/10C23F13/06C23F13/10
    • The invention relates to a method for producing deformable corrosion protection layers on a metallic surface and to use of the method. In order to create an economical process for cathodic corrosion protection of metal for a broad range of applications, the invention proposes a method for producing deformable corrosion protection lavers on a metallic surface, consisting of the following steps: a) Mixing 5 to 95 wt. % metallic magnesium, zinc, aluminum or titanium particles, or mixtures or alloys containing at least one of these metals, in the form of pigments, powders, pastes (flakes) or pellets with 5 to 95 wt. % of at least one metal compound, wherein a reaction between the metal particles and metal compound(s) results in surface-modified metal particles; b) Applying the resulting surface-modified metal particles to the metallic surface; c) Hardening the layer produced from the surface-modified metal particles at temperatures between room temperature and 350° C. It has been shown within the context of the invention that the metal substrate coated according to the method of the invention can be deformed, overpainted, welded, coated and colored, and reflects heat.
    • 本发明涉及在金属表面上制造可变形腐蚀保护层的方法以及该方法的使用。 为了在广泛的应用中形成金属阴极腐蚀保护的经济方法,本发明提出了一种在金属表面上生产可变形腐蚀保护层的方法,包括以下步骤:a)将5至95wt。 %的金属镁,锌,铝或钛颗粒,或含有至少一种这些金属的混合物或合金,以颜料,粉末,糊状物(薄片)或5至95wt。 %的至少一种金属化合物,其中金属颗粒和金属化合物之间的反应导致表面改性的金属颗粒; b)将所得的表面改性金属颗粒施加到金属表面; c)在室温至350℃之间的温度下,使由表面改性金属颗粒产生的层硬化。已经表明在本发明的上下文中,根据本发明的方法涂覆的金属基材可能变形,过涂层 ,焊接,涂层和着色,并反射热量。
    • 9. 发明申请
    • METHOD OF PRODUCING PHENOLATE ESTER COMPOUNDS
    • 苯酚酯化合物的制备方法
    • US20120059116A1
    • 2012-03-08
    • US13319784
    • 2010-05-04
    • Stefan SepeurFrank Gross
    • Stefan SepeurFrank Gross
    • C09D183/08C08G77/26B82Y30/00
    • C23C18/14C07F7/1804C09D183/04C23C18/1216C23C18/122C23C18/1254C23C18/127C25D13/02C25D13/04
    • The invention relates to phenolic ester compounds.In order to create a new product class which is suited as coating material, a compound is created within the scope of the invention, having a chemical structure of the following formula: [R1—Ph—O]aX(R2)b(R3)c(OR)n-a-b-c where X=Si, Ti, Zr, Mo, Mn, Cr, W, Hf, Ge, Sn, Pb where n=4 or X=B, V, Al, Ga, In where n=3 or X=Zn, Ni, Cu, alkaline earth where n=2 R1=O—H, H, O—Y or an organic side chain Y=an element which is different from or the same as X and has appropriate substituents R2=alkyl group or functional organic side chain R3=an organic side chain which is the same as or different from R2 Ph=aryl group R=alkyl group a is an integer between 1 and n; b=0 or 1 and c=0 or 1, and a+b+c=n. A compound is thus obtained, in which an aryl group is linked into an ester by way of an O—X group. Surprisingly, it was found that materials which resist hydrolysis and are highly stable towards chemicals are obtained by the transesterification of silanes with phenolic compounds.
    • 本发明涉及酚酯化合物。 为了制备适合作为涂料的新产品类,在本发明的范围内产生具有下式的化学结构的化合物:[R1-Ph-O] aX(R2)b(R3) c(OR)nabc其中X = Si,Ti,Zr,Mo,Mn,Cr,W,Hf,Ge,Sn,Pb,其中n = 4或X = B,V,Al,Ga,In,其中n = 3或 X = Zn,Ni,Cu,碱土,其中n = 2 R1 = O-H,H,O-Y或有机侧链Y =与X不同或相同且具有适当取代基的元素R 2 =烷基 基团或官能的有机侧链R3 =与R 2相同或不同的有机侧链Ph =芳基R =烷基a是1和n之间的整数; b = 0或1,c = 0或1,a + b + c = n。 由此得到通过O-X基团将芳基连接到酯中的化合物。 令人惊讶的是,发现耐水解和对化学物质稳定的材料是通过硅烷与酚类化合物的酯交换得到的。