Provided herein is a process for the pretreatment of workpieces having a surface of aluminum or aluminum alloys for noncutting forming and/or joining by welding or adhesive bonding to similarly pretreated, precoated workpieces, or to precoated parts. The parts are composed of steel, galvanized steel, and/or alloy-galvanized steel. Further provided herein is a subsequent permanent corrosion-protecting treatment by phosphating, by means of a chromium-free conversion treatment, by application of primer, or by surface coating, wherein the workpieces are a) pickled by means of an aqueous, acidic solution comprising mineral acid by dipping or spraying, b) rinsed with water, and c) brought into contact with an aqueous, acidic, chromium-free solution comprising Zr as complex fluoride and Mo as molybdate by application by dipping or spraying. After subsequent drying, a layer weight from 2 to 15 mg/m.sup.2 of Zr and Mo is formed.

Provided herein is a process for the pretreatment of workpieces having a surface of aluminum or aluminum alloys for noncutting forming and/or joining by welding or adhesive bonding to similarly pretreated, precoated workpieces, or to precoated parts. The parts are composed of steel, galvanized steel, and/or alloy-galvanized steel. Further provided herein is a subsequent permanent corrosion-protecting treatment by phosphating, by means of a chromium-free conversion treatment, by application of primer, or by surface coating, wherein the workpieces are a) pickled by means of an aqueous, acidic solution comprising mineral acid by dipping or spraying, b) rinsed with water, and c) brought into contact with an aqueous, acidic, chromium-free solution comprising Zr as complex fluoride and Mo as molybdate by application by dipping or spraying. After subsequent drying, a layer weight from 2 to 15 mg/m.sup.2 of Zr and Mo is formed.

A method of making a security mesh comprises forming on a conductive substrate an alumina film having through-holes in which metal, e.g., copper, through-wires are formed. First surface wires are formed on one surface of the alumina film and second surface wires are formed on the second, opposite surface of the alumina film in order to connect selected through-wires into a continuous undulating electrical circuit embedded within the alumina film. The security mesh product comprises an alumina film having a continuous undulating electrical circuit comprising copper or other conductive metal extending therethrough. A stacked security mesh comprises two or more of the mesh products being stacked one above the other.

A method of making a security mesh comprises forming on a conductive substrate an alumina film having through-holes in which metal, e.g., copper, through-wires are formed. First surface wires are formed on one surface of the alumina film and second surface wires are formed on the second, opposite surface of the alumina film in order to connect selected through-wires into a continuous undulating electrical circuit embedded within the alumina film. The security mesh product comprises an alumina film having a continuous undulating electrical circuit comprising copper or other conductive metal extending therethrough. A stacked security mesh comprises two or more of the mesh products being stacked one above the other.

The present invention relates to a carbon steel part coated with a coating of multiple layers of various materials, such as zinc, copper, and tin, and a sealing coating based on a product known commercially as Solderex TB-Br. The part can be used to produce conductors and electrodes which receive and carry electricity and which can, in turn, form part of an electrical energy control system. The present invention also relates to a method for coating a carbon steel part with a coating of multiple layers of various materials, wherein said method comprises: applying a zinc layer coating the surface of a carbon steel support material; applying a copper layer on the zinc layer; applying a tin layer on the copper layer; and applying a sealing layer on the tin layer.

The present invention relates to a carbon steel part coated with a coating of multiple layers of various materials, such as zinc, copper, and tin, and a sealing coating based on a product known commercially as Solderex TB-Br. The part can be used to produce conductors and electrodes which receive and carry electricity and which can, in turn, form part of an electrical energy control system. The present invention also relates to a method for coating a carbon steel part with a coating of multiple layers of various materials, wherein said method comprises: applying a zinc layer coating the surface of a carbon steel support material; applying a copper layer on the zinc layer; applying a tin layer on the copper layer; and applying a sealing layer on the tin layer.

A method for manufacturing an aluminum product includes a spraying step, in which a workpiece heated at a brazing step is cooled by spraying of a process liquid on the workpiece, as a boehmite treatment step after the brazing step. After the brazing step, the workpiece has been heated for brazing. A surface of the workpiece can be changed into boehmite having corrosion resistance by the spraying of the process liquid on the heated workpiece so as to contact a water molecule. Moreover, the process liquid sprayed can be dried by the heat of the workpiece. Accordingly, the brazing step, a surface treatment step and a drying step can be performed in a consecutive line.

A method for manufacturing an aluminum product includes a spraying step, in which a workpiece heated at a brazing step is cooled by spraying of a process liquid on the workpiece, as a boehmite treatment step after the brazing step. After the brazing step, the workpiece has been heated for brazing. A surface of the workpiece can be changed into boehmite having corrosion resistance by the spraying of the process liquid on the heated workpiece so as to contact a water molecule. Moreover, the process liquid sprayed can be dried by the heat of the workpiece. Accordingly, the brazing step, a surface treatment step and a drying step can be performed in a consecutive line.

Disclosed are processes of applying a coating material to galvanized surfaces or materials, which provides significant increases in corrosion resistance. The coating material mentioned herein is applied to the material or surfaces in such a way that the coating can provide the best performance. The obtained coating material is applied to galvanized material or surfaces by making appropriate improvements to the coating material without requiring additional equipment and processes.

Disclosed are processes of applying a coating material to galvanized surfaces or materials, which provides significant increases in corrosion resistance. The coating material mentioned herein is applied to the material or surfaces in such a way that the coating can provide the best performance. The obtained coating material is applied to galvanized material or surfaces by making appropriate improvements to the coating material without requiring additional equipment and processes.