EP3812362A1 - Solvent stabilizer, mixture for degreasing metal parts and use of the solvent stabilizer, method for stabilizing a solvent and method for the degreasing of metal parts - Google Patents

Abstract

The invention relates to a solvent stabilizer for the degreasing of metal parts at least comprising: overbased calcium sulfonate with a total base number of greater than 300, an alkylphenol as an antioxidant and a high-boiling mineral oil distillate as the base oil, the proportion of substance a.) Being the sum of the two components of substance b .) and substance c.). The invention further relates to a mixture for degreasing metal parts, the use of the solvent stabilizer and a method for stabilizing a solvent for degreasing metal parts with a mixture and a method for degreasing metal parts with a mixture.

Description

The invention relates to a solvent stabilizer for degreasing metal parts, a mixture for degreasing metal parts and the use of the solvent stabilizer in metal degreasing in a mixture as well as a method for stabilizing a solvent for degreasing metal parts and a method for degreasing metal parts.

When degreasing metal parts using modified alcohols, acidification can occur due to the decomposition of the solvent used. This can lead to corrosion damage in the system and damage to the parts to be degreased. However, the addition of stabilizers to the solvent can reduce acid formation or the acid formed can be bound.

The prior art is exemplified in the publications DE 698 14 162 T2 and EP 1 907 505 B1 referenced, which describe a composition of an amine and a hydrocarbon as a stabilizer. According to the publication DE 698 14 162 T2 the stabilizer composition is only used as a solvent for halogenated hydrocarbons such as perchlorethylene.

It is also from the publication EP 92 304 138 respectively DE 692 16 291 T2 It is known that overbased calcium sulfonate is added to a lubricating oil in order to neutralize oil decomposition products that arise, for example, during the operation of internal combustion engines.

As further prior art, reference is made to the publications DE 10 2014 203 599 A1 and US 2002/0 160 924 A1 referenced.

It is therefore the object of the invention to provide an improved solvent stabilizer and an improved mixture for the degreasing of metal parts, including the use thereof, as well as a method therefor.

This object is achieved by the features of the independent patent claims. Advantageous further developments of the invention are the subject of subordinate claims.

The inventor has recognized that adding a stabilizer or a stabilizer composition to a solvent for cleaning components, in particular for degreasing metal parts, reduces or prevents acidification through decomposition of the solvent used or the introduction of acid from outside. If a modified alcohol is used as the solvent, a salt of a sulfonic acid (sulfonate) is particularly suitable as a stabilizer, in particular overbased calcium sulfonate. Other substances such as an antioxidant as an oxygen scavenger and / or a base oil can also be added to the stabilizer to improve handling.

(Metal) degreasing systems are closed systems that include a cleaning chamber, a different number of solvent tanks and a distillation device. Using a solvent, preferably a modified alcohol, contaminated parts are cleaned in the cleaning chamber.

The contaminated solvent, i.e. enriched with the detached residues from the cleaned and degreased components, then flows back into the solvent tanks. These tanks feed those in the Degreasing system integrated distillation device permanently with the contaminated solvent. During the distillation process, the solvent that boils earlier or at a lower temperature is separated from the previously cleaned off residues. This distillation process can lead to acidification through self-decomposition of the solvent. For example, when using modified alcohol as a solvent, low-boiling components and, above all, acids can arise. The acidification can in turn lead to corrosion damage in the cleaning system and to surface corrosion on the cleaned parts.

In order to counteract the formation of acid in the distillation device, the stabilizer according to the invention is added to the distillation process. The stabilizer binds the acids formed in the distillation sump and remains in the distillation sump. The stabilizer therefore remains in the distillation device during the entire cleaning and preparation process for the solvent.

The distillate, i.e. the distilled and purified solvent, is then fed back into the solvent tanks via a water separator. The distillation sump is emptied and disposed of at regular intervals. The stabilizer thus used up is discharged together with the removed residues from the components.

Using a quick test procedure for checking solvents, the user can determine the quality, i.e. the acid content, of the solvent used directly on the system.

Knowing the determined acidity of the solvent, i.e. the proportion of free acids in the solvent, and the system volume of the degreasing system, the required amount of the Stabilizer according to the invention can be determined in order to neutralize the acid content.

1. a.) überbasisches Calciumsulfonat mit einer Gesamtbasenzahl von größer 300,
2. b.) ein Alkylphenol als Antioxidans und
3. c.) ein hochsiedendes Mineralöldestillat als Grundöl,
   wobei der Anteil an Stoff a.) der Summe aus den beiden Anteilen von Stoff b.) und Stoff c.) entspricht.

Accordingly, the inventor proposes a solvent stabilizer for degreasing metal parts, at least comprising:

1. a.) Overbased calcium sulfonate with a total base number greater than 300,
2. b.) an alkylphenol as an antioxidant and
3. c.) a high-boiling mineral oil distillate as base oil,
   where the proportion of substance a.) corresponds to the sum of the two proportions of substance b.) and substance c.).

According to the invention, overbased calcium sulfonate with a total base number of greater than 300 (TBN> 300), preferably equal to 400 (TBN = 400), is used. Alternatively, sodium or barium sulfonate can also be used.

According to the invention, the solvent stabilizer comprises an antioxidant (antioxidant) as further substance b.). Antioxidants serve as oxygen scavengers and thus advantageously prevent oxidation and self-decomposition of the solvent. An alkylphenol is advantageously used as the antioxidant, for example an o- and / or p-alkylphenol which contains several straight-chain or branched alkyl chains.

A non-inventive embodiment of a solvent stabilizer or a stabilizer composition with two substances a.) And b.) Can be used in any mixing ratio. A mixing ratio has proven to be particularly favorable in which the proportion of substance a.) Is 99.8% and the proportion of substance b.) Is 0.2%.

According to the invention, the solvent stabilizer comprises as further substance c.) A base oil as a carrier component. By adding this substance c.) The handling of the stabilizer composition is advantageously improved, that is, the stabilizer composition is liquefied again. Accordingly, it is easier to first introduce the stabilizer composition into the degreasing system and finally to remove it again from the distillation system.

According to the invention, a high-boiling mineral oil distillate is used as further substance c.), For example aliphatic and cycloaliphatic hydrocarbon mixtures.

The stabilizer composition according to the invention with three substances a.), B.) And c.) Can in principle be used in any mixing ratio. However, the proportion of substance a.) Is advantageously the greatest. In the mixing ratio according to the invention, the proportion of substance a.) Corresponds to the sum of the two proportions of substance b.) And substance c.). Even more advantageously, the proportion of substance b.) Is the smallest. A mixing ratio has proven to be particularly favorable in which the proportion of substance a.) Is 50%, the proportion of substance b.) Is 0.2% and the proportion of substance c.) Is 49.8%.

The invention further relates to a mixture for cleaning components, namely for degreasing metal parts, comprising: at least one solvent and the above-described solvent stabilizer according to the invention. In a preferred embodiment with a solvent, the solvent is modified alcohol.

In particular, the invention relates to the use of the above-described solvent stabilizer according to the invention in the cleaning of metallic components in the above-described mixture according to the invention. The stabilizer composition or the solvent stabilizer is particularly well suited for use in metal degreasing using modified alcohol as the solvent.

The tables below show the effectiveness of overbased calcium sulfonate in reducing the acidity of modified alcohol.

In the test series in Table 1, a real sample was taken from a metal degreasing system in which modified alcohol was used as the solvent. In each case 100 mL of the solvent with an acidity of 559 ppm were mixed with different volumes of pure overbased calcium sulfonate and then the solvent was distilled off. The stated acidity is the acidity measured in the distillate.

The measured acidity values according to Table 1 clearly show the correlation between the amount of calcium sulfonate added and the reduction in the acid content in the modified alcohol. The more calcium sulfonate was added, the more the acidity decreased. The effect of calcium sulfonate is particularly effective from a quantity of 1.2% on 100 mL of solvent. Table 1: Amount of overbased calcium sulfonate [mL] Amount of distillate [L] Acidity [ppm] 0.5 93 182 0.7 88 109 1.2 92 49 2.0 91 41

In the series of tests in Table 2, acetic acid in modified alcohol was added. In each case 100 mL of the modified alcohol with an acidity of 577 ppm were mixed with different volumes of a stabilizer composition of 49.8% base oil, 0.2% antioxidant and 50.0% calcium sulfonate and then the solvent was distilled off. The stated acidity is the acidity measured in the distillate.

These measured acidity values according to Table 2 also clearly show the correlation between the amount of stabilizer added and the reduction in the acid content in the solvent. The more stabilizer was added, the more the acidity decreased. The effect of the stabilizer is particularly effective from an amount of 2.0% to 100 mL of solvent. Table 2: Amount of stabilizer [mL] Amount of distillate [L] Acidity [ppm] 0.1 94 571 0.2 95 515 0.3 96 484 0.4 96 445 0.5 96 405 0, 6 95 378 0, 8 96 326 1.0 96 266 1.5 95 157 2.0 97 66 3.0 97 27 4.0 96 9 5.0 97 8th

In a further embodiment, the mixture comprises two solvents (mixture). The first solvent is preferably a modified alcohol and the second solvent is a hydrocarbon composition.

The invention still further relates to a method for stabilizing a solvent for the degreasing of metal parts, with an above-described mixture according to the invention, the added above-described solvent stabilizer according to the invention at least acidifying through decomposition of the solvent delayed. Advantageously, the addition of the stabilizer to the solvent increases the service life of the solvent. The extension of the solvent service life after adding the stabilizer depends, among other things, on the type of oils introduced, the degree of contamination of the components and the operating conditions of the system. The extension of the service life represents a significant saving in costs and resources.

In addition, the invention relates to a method for degreasing metal parts, with a mixture according to the invention described above with a solvent stabilizer according to the invention described above, the solvent stabilizer being added during a distillation process to separate dissolved impurities of the components to be cleaned from the solvent.

• Messen des Anteils an freien Säuren im sauren Bereich,
• Bestimmung der Alkalität im alkalischen Bereich, und
• Testen des Lösemittels auf Chloride.

A method for checking the acid content in a solvent is also proposed, in which the following parameters are advantageously determined in the solvent:

• Measuring the proportion of free acids in the acidic range,
• Determination of the alkalinity in the alkaline range, and
• Testing the solvent for chlorides.

A method is also proposed for determining the amount of a stabilizer composition necessary for acid neutralization in a solvent. Knowing the acidity of the solvent, i.e. the proportion of free acids in the solvent, and the system volume of the degreasing system, the required addition amount of the stabilizer composition according to the invention can be determined by means of stoichiometric calculation in order to neutralize the acid content in the solvent.

The stabilizer according to the invention acts as a sump stabilizer which prevents acid formation in the Degreasing system slows down and acids that have already formed are reduced. Acidification due to self-decomposition of the solvent used or due to the introduction of acid from outside can be reduced and thereby the service life of the modified alcohols can be significantly increased. The stabilizer according to the invention consequently prevents corrosion damage in the system and surface corrosion on the degreased parts. Damage to the system can be prevented and the process reliability can be increased.

• Reduktion der Acidität,
• Vermeidung von Versäuerung des Lösemittels,
• Reduktion der Selbstzersetzung des Lösemittels,
• Erhöhung der Lösemittelstandzeit,
• Erhöhung der Prozesssicherheit,
• Vermeidung von Korrosionsschäden, Oberflächenkorrosion und Schäden an der Anlage,
• Kosteneinsparungen, und
• Ressourceneffizienz durch längere Einsatzdauer des Lösemittels.

In summary, the following advantages result when using the stabilizer composition according to the invention:

• Reduction in acidity,
• Avoiding acidification of the solvent,
• Reduction of the self-decomposition of the solvent,
• Increase in solvent service life,
• Increase of process reliability,
• Avoidance of corrosion damage, surface corrosion and damage to the system,
• Cost savings, and
• Resource efficiency through longer service life of the solvent.

Claims (10)

Solvent stabilizer for the degreasing of metal parts at least comprising: a.) Overbased calcium sulfonate with a total base number greater than 300, b.) an alkylphenol as an antioxidant and c.) a high-boiling mineral oil distillate as the base oil, the proportion of substance a.) corresponding to the sum of the two proportions of substance b.) and substance c.). Solvent stabilizer according to the preceding patent claim 1, characterized in that the overbased calcium sulfonate has a total base number of 400. Solvent stabilizer according to the preceding patent claim 2, characterized in that the proportion of substance b.) Is the smallest. Solvent stabilizer according to one of the preceding claims 1 to 3, characterized in that the proportion of substance a.) Is 50%, of substance b.) 0.2% and of substance c.) 49.8%. Mixture for the degreasing of metal parts comprising: a.) at least one solvent, and b.) a solvent stabilizer according to one of the preceding claims 1 to 4. Mixture according to the preceding patent claim 5, characterized in that a solvent is a modified alcohol. Mixture according to one of the preceding claims 5 to 6, characterized in that a further solvent is a hydrocarbon composition. Use of the solvent stabilizer according to one of the preceding claims 1 to 4 for metal degreasing in a mixture according to one of the preceding claims 5 to 7. Method for stabilizing a solvent for degreasing metal parts with a mixture according to one of the preceding claims 5 to 7, characterized in that the added solvent stabilizer according to one of the preceding claims 1 to 4 at least delayed acidification by decomposing the solvent. Method for degreasing metal parts with a mixture according to one of the preceding claims 5 to 7 with a solvent stabilizer according to one of the preceding claims 1 to 4, wherein the solvent stabilizer is added during a distillation process to separate dissolved impurities of the components to be cleaned from the solvent.