DD220623B1 - METHOD OF REMOVING HEADED COPIER LAYERS OF METAL SURFACES - Google Patents

Description

Characteristic of the known technical solutions

According to the patent DD 154782 a method is known in which the steel surface is electrolytically cleaned in 2 stages, wherein in the 1 stage a sulfuric acid-based electrolyte is used in accordance with the working conditions and the composition of the electrolyte short working times are achieved The electrolyte become surfactant combinations Subsequently, a winding process and the treatment in the sulfuric acid electrolyte to eliminate dirt residues and tarnishing layers and simultaneous activation of the metal The objects are switched alternately anodic and cathodic, where they are anodically polarized last and The use of the method in the stripping of metal surfaces with hardened copy layers has the disadvantage that the cost unokonomisch and only with kon It is not possible to store stock of activated carrier metals for subsequent further processing since they become passive again. According to patent specification DD 84547, a method is known in which a cyanide-free alkaline electrolyte is used for rust removal, pickling and degreasing of steel surfaces which the electrolyte consists of glucose, sodium hydroxide, surfactant, and alkalibestandigem accelerator composed electrolysis is carried out at current densities of 10-15A / üm ² and at a temperature of 3 (5 ^ 50 ° C the disadvantage of this method is then that for decoating Another disadvantage is that the sodium nitride used as an accelerator can have a disruptive effect on the subsequent coating

Object of the invention

The aim of the invention is to develop a method for removing hardened copy layers of metal surfaces, which compared to the prior art involves a significantly simplified composition of the electrolyte and thus has a low technical and technological complexity

Explanation of the essence of the invention

The invention has for its object to develop a method for removing cured copy layers of metal surfaces, which involves a much simplified composition of the electrolyte over the prior art and thus has a low technical and technological effort According to the invention, the object is achieved in that the copying is made current-passing through a per se known immersion method in 5-9% alkaline solution and then removed by anodic current bursts of 5 to 30 seconds and a duty cycle to 1 3. The Verfahrensschntte according to this inventive solution are that the metal surface with the developed with Dichlorates sensitized and then cured polyvinyl alcohol-Kopierschicht ι η ei ne5-9% alkali lye is immersed The tenter amounts to depending on the copy layer thickness up to 30 min, to achieve the highest conductivity Subsequently, the metal It is an object of the invention to remedy the deficiency which has arisen in the prior art in such a way that the technological, material-based and technical outlay for the invention can be overcome by anodic current pulses of 5-30 seconds Removal of impurities and coatings on metal surfaces is substantially reduced and simultaneously with the process to be able to make a stripping of metal surfaces with cured PVA copying layers. The inventive method for removing cured copying layers of metal surfaces this defect is eliminated

The electrolyte consists of a maximum of two components that can be easily dosed and monitored, further accounts for subsequent process steps interfering ions Furthermore, the de-coating metalloschachenschonend takes place with minimal metal removal, so that a long life and reusability of Tragermetalls is guaranteed

embodiment

The invention is illustrated below with reference to an embodiment:

In a suitable container, electroforming matrix bodies are to be cleaned of the developed dichromate sensitized and subsequently cured PVA copying layer and stored for later use or for immediate reuse.

To carry out the process, the following steps must be used:

1. Composition Electrolyte: preferably 90 g / l NaOH

at least 0.4 ml / l Tepon

at a known temperature

2. Dive time 30 min, depending on the copy layer thickness to be removed

3. Decoating: anodic surges up to 15 sec.

Duty cycle 1: 3 time 5min

4. Rinse: with deionate

Meaning of the abbreviations used in the text

g / i - grams per liter ml / l - Milliliters per liter A / dm ² - Amperes per square decimeter K - degrees Kelvin ⁰ C - Centigrade Second - seconds min - minutes % - percent NaOH - Sodium hydroxide

PVA copy layer polyvinyl alcohol emulsion layer

Claims (1)

invention claim Process for removing hardened copying layers of metal surfaces, characterized in that the copying layer is made pass-through by a per se known immersion method in 5-9% alkaline solution and subsequently removed by means of anodic current bursts of 5 to 30 seconds and a duty cycle to 1 3 Field of application of the invention The invention relates to a method for removing hardened copy layers of metal surfaces. It ensures reusability of the support metal in the polygraphy and preferably in electroforming