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    • 2. 发明申请
    • METHOD FOR PROTECTING A METAL FROM CORROSION
    • 一种保护金属免受腐蚀
    • WO2009129783A2
    • 2009-10-29
    • PCT/DE2009000516
    • 2009-04-21
    • NANO X GMBHBREYER CHRISTINEGOEDICKE STEFANSEPEUR STEFAN
    • BREYER CHRISTINEGOEDICKE STEFANSEPEUR STEFAN
    • C23C24/08
    • C23C24/082C08K3/08C08K9/02C09D1/00C09D1/02C09D5/038C09D5/10C09D5/18C09D7/62
    • The invention relates to a method for protecting a metal from corrosion. According to teh invention, a method for protecting a metal from corrosion with a good ductility and high temperature resistance for the corrosion protected metal can be achieved, wherein a coating material is applied to the metal, containing a. low-melting metal pigments, the melting point of which is less than 1,000°C, b. one or more alloying elements, c. organic/inorganic compositions containing binders, in particular, oligo- and poly-siloxanes from the hydrolysis and condensation of alkylalkoxysiloxanes or alkoxysilanes or mixtures thereof, silicones or silicone resins, organically-modified silicone resins or inorganic compounds, in particular, silicate, polyphosphate, aluminosilicate, metals, metal alkoxides and the condensation products thereof; metal oxides or metal salts, the coating material is subjected to a thermal treatment at temperatures above the softening point of the metal pigment used, wherein the metal pigment combines with the alloying agent(s) t give a new alloy. According to the method, a change in the melting point and boiling point of the metal pigment used is brought about by the alloy formation wherein predominantly an "in situ" increase in melting and boiling point is sought. The alloying can also occur as a gradient in the boundary region of the used pigment.
    • 本发明涉及保护金属免受腐蚀的方法。 为了提供一种用于保护金属免受腐蚀,具有良好的成型性和耐腐蚀金属的耐高温性的方法,可以达到,它在本发明中,提出了一个涂覆材料被施加到金属,其中。 低熔点金属颜料,其熔化温度小于1000℃,B。 一个或多个的合金元素以及c。 粘合剂包括有机 - 无机化合物,特别是低聚物和水解的聚硅氧烷和烷基烷氧基硅烷或烷氧基硅烷或它们的混合物,硅氧烷或硅氧烷树脂,有机改性硅树脂,或无机化合物的缩合,特别是硅酸盐,多磷酸盐,硅铝酸盐,金属,金属醇盐及其 缩合产物; 包含金属氧化物或金属盐,该涂层材料的温度处理是在温度的金属颜料的软化点以上使用,由此与所述或连接的合金组分的金属颜料,以形成一个新的合金进行。 在通过合金化在熔点的变化和所使用的,由此占优势“原位”熔点和沸点升高是所寻求的金属颜料的沸点本发明的方法。 该合金还可能出现如在所使用的颜料的边缘区域的梯度。
    • 5. 发明申请
    • PROCESS FOR PROTECTING VEHICLE BODY COMPONENTS, CHASSIS COMPONENTS, ENGINE COMPONENTS OR EXHAUST SYSTEMS FROM CORROSION
    • 法腐蚀KAROSSERIE-的,底盘,发动机部件或排气系统
    • WO2009021490A3
    • 2010-01-14
    • PCT/DE2008001299
    • 2008-08-12
    • NANO X GMBHVOLKSWAGEN AGSEPEUR STEFANGOEDICKE STEFANPAAR UWE
    • SEPEUR STEFANGOEDICKE STEFANPAAR UWE
    • C09D1/00B62D27/00B62D29/04B62D65/06C09D5/10C09D7/12
    • C09D1/00C08K3/08C08K3/22C09D5/10C09D7/61
    • The invention relates to a process for protecting vehicle body components, chassis components, engine components or exhaust systems from corrosion. In order to provide a process for actively protecting vehicle body components, chassis components, engine components or exhaust systems from corrosion, in which case the layer is to be applied on an industrial scale to standard steel and to sand-blasted press-hardened parts using conventional means (e.g. dipping, spraying, flooding), the invention proposes a process comprising the following process steps: a. using steel alloys which are conventionally used in the construction of vehicle bodies and vehicles or using hot-formed or press-hardened vehicle body components, chassis components, engine components or parts of exhaust systems which are provided with metallic coatings or metal-pigment-containing coatings or with such coatings for protection against scaling, b. using conventional joining processes to join together at least two vehicle body components, chassis components, engine components or parts of exhaust systems, which differ in composition, process undergone or surface coating, to form a composite, wherein at least one of the components joined together to form the composite is a hot-formed or press-hardened component, c. applying an anti-corrosion coating to the composite.
    • 本发明涉及一种用于汽车车身,底盘,发动机部件或排气系统的腐蚀保护的方法。 以提供用于汽车车身,底盘,发动机部件或排气系统,其特征在于,通过常规方法的顺序(例如,浸涂,喷涂,流涂)是要对软钢以工业规模进行时,到喷砂,形成固化部件的活性腐蚀保护的方法,是在 本发明提供了一种方法,包括建议的步骤:a。 在车身和车辆钢合金或金属涂层或金属含颜料的涂层或与这​​种涂料提供热加工或热成型汽车车身,底盘,发动机部件或排气系统,B部分规模保护的目的使用通常使用的。 通过常规的接合过程中组合物接合至少两个由泄露过程或表面涂层独特的车身,底盘,发动机部件或排气系统的部件以形成复合材料,其中接合到复合材料组件中的至少一个是热成型或形式硬化组分,C。 施加在复合腐蚀保护涂层。
    • 8. 发明申请
    • PHENOLATE ESTER COMPOUNDS
    • PHENOLATESTERVERBINDUNGEN
    • WO2010130241A3
    • 2011-01-06
    • PCT/DE2010000500
    • 2010-05-04
    • NANO X GMBHSEPEUR STEFANGROSS FRANK
    • SEPEUR STEFANGROSS FRANK
    • B05D1/00C07F7/18C08G77/18C25D13/04
    • C07F7/1836C07F7/184C09D183/04C23C18/1216C23C18/122C23C18/1254C23C18/127C23C18/14C25D13/02C25D13/04
    • The invention relates to phenolate ester compounds. In order to create a new product class which is suited as a 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 earth alkaline, 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 that 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 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 are stable toward hydrolysis and highly stable toward chemicals are obtained by the transesterification of silanes with phenolic compounds.
    • 本发明涉及Phenolatesterverbindungen。 为了提供一类新的产物,其是适合作为涂层材料,在本发明的上下文中,提供了一种化合物,其包含化学结构用下面的公式:[R1 - pH - O] AX(R2)B(R 3)C(或 )NABC锌,其中n = 4或X = B,V,铝,镓,铟,其中n = 3或X = X =硅,钛,锆,钼,锰,铬,钨,铪,锗,锡,铅 ,镍,碱土铜,其中n = 2,R1 = OH,H,OY或有机侧链,Y =用合适的取代基,R 2 =烷基或有机官能侧链,R 3 =相同或不同的一至X不同或相等,性元件 R2样到有机侧链中,Ph =芳基,R =烷基,a是1和n之间的整数; B = 0或1和c = 0或1且a + b + C = N,这是一个链接存在于芳基经由O-X基连接为酯。 令人惊讶地,已经发现通过用酚类化合物的硅烷的酯交换反应即水解和接收高的化学稳定的材料。
    • 9. 发明申请
    • SILANE COATING MATERIAL AND METHOD FOR THE PRODUCTION OF A SILANE COATING
    • 硅烷涂层材料和生产硅烷涂层的方法
    • WO2008034409A3
    • 2008-12-04
    • PCT/DE2007001602
    • 2007-09-10
    • NANO X GMBHSEPEUR STEFANLARYEA NORATHURN CAROLINSCHLICK GERD
    • SEPEUR STEFANLARYEA NORATHURN CAROLINSCHLICK GERD
    • C09D4/00C09D183/04
    • C09D4/00C08G77/00C08G77/26
    • The invention relates to a silane coating material and to a method for the production of a silane coating. In order to create a silane coating material according to the generic term, in which the disadvantages stated above can be avoided, a method for the production of a silane coating according to the invention is proposed, wherein one or more silanes that are not, or are only slightly, pre-condensed, are added to a reaction partner and the resulting coating material is applied to a substrate and cured. Surprisingly it has been found that by means of the reaction of higher molecular and possibly slightly pre-cross-linked silanes and a suitable reaction partner a new class of coating materials can be created. According to prior art, silanes are processed via sol-gel processes, starting with pre-condensed species. The procedural method according to the invention is advantageous insofar as no restrictions exist with regard to the working life, and additionally improved properties of the coating material are achieved, particularly high scratch resistance.
    • 本发明涉及一种硅烷涂料和一种生产硅烷涂料的方法。 为了根据前序部分,其特征在于,上述的缺点被避免以提供Silanbeschichtungsmaterial,一种用于制造一个硅烷涂层,根据本发明,其特征在于,一种或多种硅烷,其不或仅略微预缩合提出,与反应配偶体,然后将混合 由此产生的涂层材料被施加到基底并被固化。 令人惊讶地,已经发现,一类新的涂层材料可通过较高分子量的反应来提供,并可能轻微预硅烷和合适的反应物。 根据现有技术通过溶胶 - 凝胶方法处理硅烷,从预浓缩物种开始。 本发明的过程是相反有利的,因为有涂层材料的相对于贮存期没有限制多个目的,还更好的特性可以实现,特别是高的耐擦伤性。
    • 10. 发明申请
    • PARTICLES OR COATING FOR SPLITTING WATER
    • 颗粒或 涂层水分裂
    • WO2008154894A3
    • 2009-04-30
    • PCT/DE2008000962
    • 2008-06-13
    • NANO X GMBHSEPEUR STEFANFRENZER GERALDOLIVEIRA PETER W
    • SEPEUR STEFANFRENZER GERALDOLIVEIRA PETER W
    • B01J35/00C01B3/04C25B1/00
    • C01B3/042B01J33/00B01J35/0013B01J35/004B01J37/0221B01J37/34C01B13/0207Y02E60/364
    • The invention relates to particles or a coating for splitting water. The aim of the invention is to provide particles or coatings for splitting water in which corrosive damage is prevented to a great extent. To achieve this, the particles or the coating consist(s) of a nucleus or a sub-layer and a shell or top layer, the nucleus or the sub-layer forming a reactive unit and consisting of a material that releases electrons with the input of energy from sunlight, said electrons being capable of splitting water into hydrogen and oxygen, and the shell or top layer forming a protective unit capable of holding the split products away from the surface of the reactive unit and having at the same time conductive fractions. Surprisingly, corrosive damage to the reactive particles is prevented to a great extent by the targeted separation of reaction particles and split products over the range of the released electrons.
    • 本发明涉及一种颗粒或用于水的裂解的涂层。 为了创建用于其中很大程度上防止腐蚀损坏的水裂解的颗粒或涂层,在本发明中提出,颗粒或涂层由芯或底片和盖或顶部层,其中 芯或底片形成反应性单位,由其在被太阳光的电子,其能够分裂水的成氢气和氧气,和能量输入的材料 - 壳或上层形成保护单元,其能够 是为了防止裂变产物从所述反应单元的表面,并且同时具有导电部分。 令人惊讶地,已经发现,所述反应性颗粒的腐蚀性破坏主要是由反应粒子和裂变产物的过度释放的电极的动力学飞行距离的长度的特定的分离防止。