DE814983C - Stripping agent for removing excess coating metal during molten coating of metals and processes for molten coating of metals - Google Patents

Description

Stripping agent for removing excess coating metal during molten metal plating and methods of molten plating of metals The invention relates to an aid and a method for metallic Plating of metals such as B. hot dip tin plating and white sheet metal manufacture either by hand or by machine. It particularly refers to an oily one Stripping means and is intended essentially by description in conjunction with the Stripping a tin coating will be explained.

In the practice of hot dip tinning, it is common to draw steel sheets through a flux and then through a bath of molten tin and then, while the tin is still in a liquid state, through a layer of an oily stripping agent. The 0I reaches a temperature of about 230 to 29o ° C. The 01 strips the excess of the molten metal, and conveys it back into the bath. The C) 1 also produces a film on the coating which prevents oxidation of the coating, which in this condition is necessarily still very hot. The coated steel then passes through pairs of rollers which are arranged in series one behind the other. These rollers smooth the coating and act as a means of conveying the sheets through the tin bath. Triglycerides have heretofore been used as a stripping agent or oil. Of these, palm oil was used the most.

The need for a better remedy than palm oil had long existed. The palm oil to be used requires pretreatment, which takes a considerable amount of time, such as B. a treatment for qo to 80 hours at an elevated temperature of about 210 to 26o ° C. Furthermore, the palm oil is subject to changes at the very high temperatures that occur when used as a stripping oil. The 01 suffers such decomposition and change, that it is necessary to replace at intervals a substantial portion of the oil with fresh oil. It is common practice to change at least 25% of the palm oil every two weeks in addition to the make-up oil that must be added to make up for the losses caused by the oil film on the coated sheet. There are also considerable amounts of fumes and odors generated by the hot palm oil.

Instead of palm oil, various oils were also used for this purpose suggested; how . natural and hydrogenated fatty oils, sebum and the like. These On the whole, materials, like palm oil, are not very advantageous. You have the disadvantages mentioned above and must also partially are replaced and rise relatively quickly under the process conditions in their viscosity.

It has now been found that adding a minor proportion of an ester of a higher monohydric aliphatic alcohol with a higher fatty acid to the fatty oil not only gives better stripping results, but also eliminates the need to replace the remaining triglycerides for periods of six months or more .

The invention relates to a stripping means for the production of metallic ones Coatings in a hot immersion bath, e.g. B. in the form of a mixture of, for example a solution of a triglyceride and an ester of a monohydric alcohol of described type in proportions of about 10 to 35 per 100 parts of the total stripping agent. The invention also relates to the method described, this stripping means on products coated with molten metal.

The parts given are parts by weight.

The machine equipment used and the steel to be coated are of the usual design. The procedural steps used are also the usual, otherwise it is particularly emphasized in detail.

One of the advantages of using the new mixture of ester is monovalent Alcohol and triglyceride instead of the previously used triglycerides in the effect of the ester, even in small proportions, the change in properties of the triglycerides, for example, in terms of viscosity to such an extent to reduce that the triglycerides essentially constantly the properties in Maintain sufficient dimensions that are necessary for a wiper oil. If that Using new wiper oil instead of the previously used oil causes a Less decomposition of the triglycerides, less fumes and smells in the environment of the stripping process, a special coating and a lower proportion of the coated product, which is due to defects in the coating again through the manufacturing process must go or be sold at a lower value. One with the new scraper produced tin plating has better fusion bond than when using of palm oil or the other triglycerides alone that: earlier used in practice came. While 'this latter advantage is essentially evident in the canning industry affects, one or more of the listed advantages affect each area of application of the stripping oil in the hot dip tinning of the tinplate industry.

The following values for the change in viscosity during the service life give a measure of the stability of a stripping agent that consists of 83 parts of triglyceride and 17 parts of the ester of a monohydric alcohol consists of: Viscosity of the original agent 57 sec. Sayboldt at 99 ° C.

Viscosity of the same mixture after six months of use at temperatures of approximately 235 ° C: 85 seconds.

During this six-month test period no additives were made of the stripping agent with the exception of the parts which serve to compensate for the lost or consumed 01, which necessarily occur in the process. The amount of stripping agent that was necessary to compensate for the losses and consumption was only about half the amount that was necessary in a parallel comparison test of the same duration with palm oil, including the necessary replacement of the latter at intervals. Furthermore, the end value of the viscosity of 85 seconds of the agent according to the invention in the above-mentioned experiment is still completely sufficient for practice, even for fresh oil, since it is customary to carry out the process with palm oil, which initially has a viscosity of about 72 seconds or has a little more.

As for the materials used, the triglyceride is said to be be a fat that is nearly or completely saturated. When using machine The triglyceride should have an iodine number below 3o. For towel process the iodine number can be higher, but should essentially not be higher than 6o. Examples of useful triglycerides are hydrogenated fish oils such as e.g. B. oils from Sharks, sardines, pilchards, cod, herring or whale oil; hydrogenated vegetable Oils such as B. soy, cottonseed, peanut and. Rapeseed oil; hydrogenated animal oils, such as B. hydrogenated tallow, lard or lard oil. .

The ester of the monohydric alcohol which, as mentioned above, with the Triglyceride mixed is to be, an ester of a higher monovalent must be aliphatic alcohol with a higher fatty acid. The one contained in the ester Alcohol suitably contains 12 to 22 carbon atoms in the molecule, and the higher Fatty acid also advantageously has 12 to 22 carbon atoms in its molecule on. Examples of alcohol are: n-dodecanol, n-tetradecanol, n-hexadecanol and n-octadecanol. Examples of the fatty acids used in the esters are: n-tetradecanoic acid, n-hexadecanoic acid, n-octadecanoic acid, n-eicosanoic acid (arachidic acid) and n-docosaiic acid (behenic acid). Isomers and homologues of these alcohols and acids can be used within the specified number of carbon atoms. Examples of esters which meet requirement e and alcohols and acids of the described Type contained in the older system of nomenclature: cetyl palmitate, stearate and -myristate; Stearyl stereate and palmitate; Myristyl stearate and palmitate; Spermacet and the higher monohydric alcohol ester of jojoba oil.

These esters can be produced synthetically. You can either be used individually or in admixture with one another, e.g. B. in the course occurring form or in mixtures of the various components. A commercially available One form of such ester that has been used to advantage is hydrogenated semen oil.

The hydrogenated spermacet oil contains approximately 65% esters of the higher aliphatic Alcohols with the higher fatty acids and about 35% triglycerides.

As far as the proportions are concerned, at least 10 parts by weight had to be of the ester of the type described to 100 parts of the total mixture with the triglycerides be applied when the desired stability of the mixture when applied under liolieti temperatures to which the stripping medium comes in use can be achieved target.

You can go up to 35 parts ester to 100 parts of the mixture. The selection of the specific proportion of the ester within the range of v011 10 1> 1s 35% is determined by the properties achieved in each process should be. In the example mentioned above, in which the stripping means at a Hot dip tinning was used for six months, the proportion amounted to 25 parts hydrogenated sperm acetal oil. This corresponds to approximately 17 parts of the ester of the monohydric alcohol to 83 parts of hydrogenated marine oil.

In some cases it can. the trays or other articles coated by the fire-dipping method described are allowed to cool before passing through the stripping oil. In this case, so that the heated 01 in turn heats the coating again and brings it into a state suitable for stripping, the oil is heated separately to 230 to 29o ° C.

The inventive method and stripping means can also be used in the Modification of the hot dip coating method can be used. With this modification the metal coating is applied electrolytically and the coated articles are by means of a passage through heated wiper oil of the type described and the said temperature made shiny.

In tinplate manufacture, a stripping agent is used that contains the same types of material in the same proportions as in the context above was described with hot dip tinning. It was used as a stripping agent the coating of sheet steel with a molten mixture of 85 parts of lead and 15 parts of tin used, the devices and the process steps in the manufacture of tinplate are the usual ones, with the exception of the use of the new stripping agent and the process is a suitable continuous one Tinplate manufacturing process. The advantages of using the invention Stripping agents are similar to those described in detail above in connection with the tinning process were described.

The mixture of hydrogenated fatty 051e and esters of monohydric alcohols can be used for the application described above by hydrogenating various types of Shark oil, bottlenose dolphin oil, seal oil or similar can be produced, which is for The natural product selected for hydrogenation can be one that naturally has the contains monohydric esters in proportions of 10 to 35 parts per 100 parts by weight of CRI.

Claims (5)

PATENT CLAIMS: i. Stripping agent for removing excess coating metal in the molten coating of metals, characterized in that there is a Mixture of hydrogenated fatty oils and an ester of a monohydric aliphatic Contains alcohol with a fatty acid, the alcohol and those present in the ester Fatty acids each have from 12 to 22 carbon atoms in the molecule. 2. Stripping agent according to claim i, characterized in that the ester fraction ranges from to to 35 Parts amounts to 100 parts total weight of the mixture. 3. Stripping means according to claim i or 2, characterized by a mixture of hydrogenated fatty oil and spermacet oil in the ratio of 10 to 35 parts of spermacet oil to 100 parts of mixture. 4. Stripping agents according to claim 3, characterized in that the spermacet oil of the mixture hydrogenates is. 5. A method for hot dip coating of steel objects, characterized in that that after coating the object with molten metal, such as. B. molten Tin or a molten mixture of lead and tin, the object with the Coating is passed in the molten state through a stripping medium, which accordingly the claims i to 4 is composed.