DE277793C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 48 «. GROUP

LANGBEIN-PFANHAUSER-WERKE AKT.-GES. in LEIPZIG-SELLERHAUSEN.

Patented in the German Empire on September 12, 1911.

There are already processes for electrolytic cleaning and degreasing of Wires, strips, sheets and the like are known, in which the objects cathodically in continuous Operation to be cleaned in alkaline electrolytes. It has also been suggested to pickle the objects anodically in an acidic or neutral bath. Here, however, the items are not

ίο treated continuously, but only a certain amount Immersed in time and then withdrawn so that the process is discontinuous and therefore relatively expensive is. .

In addition, however, the known methods ν have the disadvantage that the objects 'not as they come from manufacturing, i.e. with tinder,, grinding grease, drawing grease and the like afflicted, processed \ verden, but a mechanical preparation by grinding, scrubbing, drumming or the like or a chemical treatment by leaching, pickling or the like Need to become. Practice has shown that scale or larger amounts Grinding lubricant or other drawing material through the previously known electrolytic, cathodic degreasing can never be removed properly, especially not if if you work in continuous operations, in which the objects with a run mechanically through the electrolytic system at a higher, constant speed.

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In addition, as has only recently become known, those of the cathodic, electrolytic Degreasing or cleaning exposed objects through the hydrogenite development on the cathode very unfavorable in the mechanical strength influenced by hydrogen absorption. By the hydrogen uptake is also responsible for the formation of bubbles in the precipitates and promoted. If acidic solutions are used as the electrolyte, the inconveniences appear to an even greater extent.

The invention consists in that the objects in the form of the anode are continuous by an alkaline or neutral, d. H. so do not have an acidic solution of an electrolyte high speed while using very high current densities. The current density should be over 30 amps per square decimeter. It has been found that by increasing the Working speed and. Increase the current density a complete cleaning can achieve. Because here only a very short piece of the wire is subjected to the treatment a considerable reduction in electrode removal becomes possible. So one achieves high current densities, although the voltage used for this is hardly higher than with the previously applied Procedure.

The process produces a clean, white, shiny surface without

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any preparatory mechanical or chemical treatment. The mechanical properties of iron remain completely unaffected. The remains of impurities and the Electrolysis products that still adhere to the metal surface can be removed by simply Rinse or wipe away. The objects are then prepared for plating or galvanizing and

ίο can go directly into the plating bath.

The speed at which the material is passed through the electrolyte is determined depends essentially on the type of contamination that is removed from the surface should be. Wires that are annealed in pots - or continuously in a pull through furnace are annealed, include annealing chip and coal. As a result, such wires can be do not clean as quickly as wires that are in a reducing atmosphere or in a Atmosphere that is free of oxygen, and only one start-up and one Have soot layer. For the latter are higher throughput speeds and lower Amperages required. Hard wires drawn with grease must be leached before electrolytic pickling be freed from the grease or, if mineral greases are used, with petrol or kerosene. Electrolytic pickling can be applied to such wires can also be carried out with high throughput speeds.

The best speed also changes with the diameter of the goods, namely in in the sense that with a larger diameter the best speed is lower. For example can be advantageous for wires with an average diameter of 2 to 3.5 mm Use speeds of around 15 to 4 meters per minute by moving the Speed according to the quality of the wire, the nature and thickness of the impurities and the temperature of the electrolyte is dimensioned differently.

If you only immerse a small piece of the wire, about a meter, at the same time, so one can reduce the distance between the treated wire and the cathode to about 3 to 4 cm and accordingly the Drive current density to 80 to 100 amperes per square decimeter without the economic

. to exceed the economic bath voltage despite these extremely high current densities.

Any insoluble conductive material can be used as the cathode, preferably Sheet iron, lead or coal. ■

Any electrolyte can be used as the electrolyte, but it must not be acidic and must have sufficient conductivity so that at the high working speed, which is peculiar to the process, achieve the required high current densities can.

The best results are technically and economically achieved by a highly concentrated solution of sodium chloride at temperatures between 30 and 70 ^0th However, Glauber's salt or any other neutral or alkaline salt with the required conductivity can just as well be used.

No soluble compounds are formed in the process. The electrolyte can can therefore be made usable again by filtering or simply decanting.

The procedure can also be carried out with the loading. known processes' for the production of galvanized Combine items. For example, if it is a question of galvanizing iron wire, so the raw iron wire is first annealed and subjected to a known process Then the cleaning process described, rinses it off sufficiently and then carries it out to electrolytic or hot-dip galvanizing to.

Claims (3)

Patent Claims: 1. Process for the electrolytic cleaning of metal objects such as wires, Ribbons, sheets, mesh and similar objects, characterized in that the work material is connected as an anode rapidly and continuously by using a non-acidic electrolyte high current densities (over 30 amps per square decimeter). 2. Embodiment according to claim 1, characterized in that only a short one Piece of the work material is pulled through the bath at high speed. 3. Embodiment of the method according to claim 1 and 2, characterized in that that the electrode spacing is reduced by a corresponding .. reduction of the anode length to such an extent that bath voltages are obtained, which do not or barely exceed those otherwise customary in picking.