Process for removing soap-contaminated conversion layers on meta

Details Process for removing soap-contaminated conversion layers on meta Process for removing soap-contaminated conversion layers on meta

1998-12-08

2000-11-28

Carrillo, Sharidan

Cleaning and liquid contact with solids

Processes

For metallic, siliceous, or calcareous basework, including...

134 2, 134 10, 134 13, 134 26, 134 28, 134 41, 134 42, 510254, 510260, 510263, 510264, 510269, 510274, 510362, 510433, C23G 102

Patent

active

061530158

DESCRIPTION:

BRIEF SUMMARY
BACKGROUND OF THE INVENTION

1. Field of the Invention
This invention relates to a process for removing soap-contaminated conversion layers remaining on metal workpieces after cold-forming by means of aqueous, acid cleaning agents as well as the use thereof for cleaning soap-contaminated calcium aluminate coatings remaining on workpieces of aluminium or aluminium alloys after cold-forming.
In connection with the industrial manufacture of workpieces by means of a non-cutting cold-forming operation, it is for instance necessary to remove remaining lubricant-contaminated phosphate, oxalate or aluminate coatings, so-called soaked-in phosphate, oxalate or aluminate coatings. As lubricant, in particular oils and soaps are used, which chemically react with the previously applied phosphate, oxalate or aluminate coating, thereby forming an intimate bond. The preparation of cold-forming by applying phosphate, oxalate and aluminate coatings and the subsequent treatment with lubricants is commonly used in particular in the field of tube drawing, wire drawing, cold extrusion or sinking.
The above-mentioned soaked-in coatings must be removed above all when it is for instance intended to perform a soft annealing of the workpiece, a further chemical surface treatment or a lacquer coating.
2. Prior Art
The acid cleaning of aluminium, in particular of cold-formed aluminium is known and described for instance in U.S. Pat. No. 3,969,135 with respect to the cleaning of aluminium cans provided with lubricant residues, which cans were produced by deep-drawing or sinking from thin round sheet metal blanks. As a basis of the acid cleaning agent, there is used sulfuric acid with a minor addition of hydrofluoric acid. A further acid cleaning agent for aluminium or aluminium alloys is described in EP-A-275,043. As basis there is used a mineral acid from the group including sulfuric acid, phosphoric acid and nitric acid. Both the aforementioned processes have in common that the aluminium or aluminium alloy surface was formed without preceding conversion treatment by merely using lubricant.
The DE-A-3,843,148, however, describes a process for removing soaked-in conversion and soap layers with alkaline cleaning agents and under the influence of ultrasound. After a correspondingly high load, the constituents of the detached conversion layers accumulate in the cleaning bath, and the bath must be disposed of, which is generally effected by means of a breakdown with acid. It is a disadvantage of this process that major amounts of a strongly alkaline solution must not only be neutralized, but also greatly acidified. In the alkaline cleaning especially of aluminium or aluminium alloys it is furthermore disadvantageous that when using strongly alkaline cleaning agents the material is solubilized, or when using mild alkaline cleaning agents, an only very slow and incomplete detachment of the lubricant-contaminated conversion layer is effected even under the influence of ultrasound.


SUMMARY OF THE INVENTION

It is the object underlying the invention to provide a process for removing soap-contaminated conversion layers remaining on metal workpieces after cold-forming by means of aqueous cleaning agents, which process eliminates the known, in particular the aforementioned disadvantages and provides for a long dwell time of the cleaning agent.
This object is solved in that the process as described above is developed such that the cleaning by means of a cleaning agent containing nitric acid, phosphoric acid and/or amido-sulphonic acid is performed at a temperature above 60.degree. C., and the cleaning agent is cooled after a sufficiently high load in the absence of the cleaned workpieces to a temperature below 55.degree. C., the fatty acid layer floating up is separated, and at least the greater portion of the aqueous phase is reused for cleaning workpieces.
By means of the inventive process, the soaked-in, soap-contaminated conversion layers are removed from the workpiece quickly and completely. The fatty acid formed from the soap remains dispers

REFERENCES:
patent: 3552404 (1971-01-01), Kuhn
patent: 3923539 (1975-12-01), Jorns
patent: 3969135 (1976-07-01), King et al.
patent: 4400289 (1983-08-01), Geldner et al.
patent: 4415415 (1983-11-01), Zaremski
patent: 4517029 (1985-05-01), Sonoda
patent: 4609488 (1986-09-01), Geke et al.
patent: 5501741 (1996-03-01), McMahon
Siemund, G.: "Schmieren Und Phosphatieren Beim Kaltumformen Kombinieren", "Drahtwelt", Heft 11/83, Vogel-Verlag Wuerzburg, pp. 2-4. (Translation is provided).
Clariant Product Sheets, Publishes May 23, 2000 pp. 1-6.
Condea Product Sheet Published Jan. 1998, pp. 1-5.

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