DET0006306MA - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

Registration date: June 9, 1952. Advertised on January 19, 1956

GERMAN PATENT OFFICE

The invention relates to a drying paint that is smooth, closed and resistant capable of forming film-like coatings.

Steps have already been taken in the process of making drying paints to the effect that the drying times of the film-like coatings decrease be set. For this purpose one already has parts of quick-drying paints fatty oils with conjugated double bonds, such as wood oil, dehydrated castor oil and oiticica oil, incorporated. These quick-drying oils influence the drying time of the paint, to which they are added, in a favorable sense, but they have disadvantages that lead to a general Lead change of the film-like coating. This often results in wrinkled, matt and speckled surfaces when quick-drying oils are used in paints. To the These disadvantages are often offset by other oils in large proportions in conjunction with the quick-drying ones oils are used to achieve a pleasant surface.

Another method of eliminating those that occur with the use of the quick drying oils Disadvantages are based on the use of resins in large quantities. However, if big Share of resins used in paints

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the film is usually brittle and therefore not flexible and pliable. ; The invention aims to provide a self-drying paint which has the formation 5. A quick-on, air-drying, hard, elastic protective cover. The paint has a quick-drying oil and results in a smooth and closed surface, which is flexible and pliable without being large

ίο quantities of resin are used. more details of the invention will emerge from the following description.

The drying paint according to the invention is characterized by the use of a fatty, drying oil -with conjugated double bonds, such as -for example wood oil, oiticica oil or dehydrated castor oil, an oil-soluble resin and a titanic acid ester. ₍

Almost every oil-soluble resin can be used for the invention

ao dung can be used. Alkyd resins, phenolic resins (except phenyl ethers) and

. natural resins such as ester resin and the like. There are many oleoresin-containing paints on the market, of which contain some large proportions of quick-drying conjugated oils. These can be used for the invention Paints are used. Also suitable are those paints in which the; Oil content of more than ,, 5.0% from a quick-drying Ordered oil mixed with other types of oil. It is particularly useful when ι up to 6 parts of oil per 1 part of resin in the paint are present.

The use of a titanium ester is required to bind the paint according to the invention. Both orthotitanic acid esters are considered titanium esters in the context of the present invention as well as the alkoxy titanium acylates. The representation of the orthotitanic acid esters is in the literature described. Satisfactory results have been achieved using alkyl titanates which are represented from alcohols with 2 'to 20 carbon atoms in the alcohol group., It can unsubstituted alcohols and also amino alcohols can be used with equal success.

The alkoxytitanium acylates, which are also to be addressed as titanic acid esters, are contained in the Alkoxy group 2 to 20 carbon atoms, and the acylate group is a derivative of a one- or two- ' basic alkanoic or alkene carboxylic acid. The acylate group contains between 3 and 36 carbon atoms. The alkoxy titanium acylates contain 1 to 3 alkoxy groups and 3 to 1 carboxyl groups per titanium atom, the sum of the alkoxy groups and carboxyl groups is practically four. The two The aforementioned types of titanium esters can be used with essentially the same result will.

According to "Farbe und Lack", 1950, p. 397, butyl titanate is recommended as a paint binder for fire-resistant ^{and at the same time rust-protecting paints, which can withstand temperatures of over 540 0} and, at the same time, produce coatings with favorable anti-corrosive properties. _; lSrach.

»Presentation from; the technical field of cherrii- '·' "7 see industry", January 1, 1951, p. 14, Referat 1079/29, it is known to use butyl titanate and polymerized butyl titanate as binders in protective lacquers.

When using titanic acid esters for the paint according to the invention, satisfactory results Results achieved when between 2 and 10% titanic acid esters are used / If If the titanic acid ester is used in a proportion significantly below 2%, the result is wrinkled and matt surfaces. If the titanic acid ester is used in a proportion over 10%, Reaches brittle and brittle surfaces that are undesirable. When the proportion of the titanic acid ester is between 2 and JO ° / p, smooth and closed coatings are obtained that are flexible and are supple.

The following examples serve to further illustrate the invention.

example 1 Example 3

A drying paint was prepared by mixing 100 parts of one Phenolic resin with a softening point between 60 and 75 ° and an acid number below 12, 200 parts of pure Hoköl, 1 part of lead naphthenate and 150 parts of white spirit, ν to 100 parts of this 13 parts of butanol and 6.6 parts of monobutoxytitanium ester of trithanolamine were used as the mixture Bonding of a lacquer added. This lacquer was applied as a film of 0.153 mm on a cold rolled Test plate applied and dried at 100 ° for 30 minutes. The dried film was smooth, transparent, closed and opaque and possessed high gloss. He owned one Sward hardness of 16. The film was not brittle and could withstand 30% elongation without breaking.

For comparison purposes, another part of the lacquer that did not contain titanate was also applied this steel plate applied and dried. The. Film was wrinkled and piebald.

Example 2

It has a varnish formed by mixing 60 parts of a commercial alkyd resin having an acid number of 6, 40 parts of n dehydratisier- ₀ tem castor oil and 100 parts of mineral spirits. This paint was modified by adding 2.5 parts of butyl titanate to 100 parts of paint. This modified lacquer was then placed on a test panel and dried. The dried film was n ₅ transparent, smooth, closed and pliable and had a Sward hardness of 15., ■■■ after 24 hours

A varnish was produced by mixing alkyd resin and dehydrated castor oil and white spirit according to Example 2. "100 parts this lacquer was mixed with 22 parts of n-butanol and 6.6 parts of tributoxy titanium monolinolate. The varnish modified in this way was then applied to a

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Sample panel injected and air dried for 24 hours. The dried film was see-through, closed, shiny and supple and had a Sward hardness of 30.

For comparison purposes, a film was made from the same paint, but without the addition of titanic acid ester prepared, applied to a glass plate and dried. The dry film was wrinkled and had no adhesiveness.

Example 4

A lacquer was formed by mixing 100 parts of phenol-formaldehyde resin (Bakelite resin BR 254), 200 parts of oiticica oil, 150 parts of xylene and 150 parts of gasoline. 100 parts of this The lacquer was modified by adding 6 parts of butyl titanate. The varnish modified in this way was sprayed onto a test plate. The dry film was clear, closed and flexible and had a Sward hardness of 9 after drying for 4 hours. After 24 hours it was the hardness 26.

For comparison purposes, the lacquer was applied to a test plate before the modification with the titanium ester sprayed and air dried. The film was dull and wrinkled.

Example 5

A lacquer was produced from 50 parts of phenolic resin with an acid number below 1 and a melting point of 49 to 53 °, 5 ° parts

; Ester resin, 240 parts wood oil, 80 parts linseed oil and 400 parts white spirit. 100 parts of this paint were by adding 5 parts of tributoxy

titanium monooleostearate modified. The modified paint was sprayed onto a test panel and applied air dried. The film was clear, smooth, glossy, and pliable.

It is clear from the examples that smooth, closed and pliable films are produced * o can be made from a paint that is quick-drying oils without enlarging the Contains resin content.

Claims (3)

Claims: Attached publications: Farbe und Lack, 1950, p. 397; Report from the technical field of the chemical industry (1. i. 1951), p. 14, Referat 1079/29. 1. Drying paint from an oil having conjugated double bonds such as tung oil, oiticica oil or dehydrated castor oil, and an oil-soluble resin, characterized by the content of a Titansäureesters, preferably in an amount of 2 to io ⁰ / ". 2. Paint according to claim 1, characterized in that it is a titanic acid ester an unsubstituted aliphatic alcohol having 2 to 20 carbon atoms, preferably Contains butyl titanate or monobutyl triethyleneamine titanate. 3. Paint according to claim 1 and 2, characterized in that it contains an alkoxy titanium acylate such as tributoxy titanium monolinolate and tributoxy titanium monooleostearate. ι 509 629/185 1.56