CH619729A5 - Process for preparing gamma-quinacridone - Google Patents

Abstract

gamma -Crystalline quinacridone is obtained directly by the following procedure: a mixture of dianilinoterephthalic acid and 1-20% by weight of ortho-substituted dianilinoterephthalic acid is heated in polyphosphoric acid to above 70 DEG C to bring about ring closure. Water or a water-miscible organic liquid is added to precipitate the gamma -crystalline product. <??>Because of its excellent outdoor durability, the gamma -quinacridone is used as a pigment in automotive coatings, paints and architectural coatings.

Description

The invention relates to a method for producing the y-crystalline phase of quinacridone (hereinafter referred to as y-quinacridone).

Linear quinacridone has the structural formula

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and, as described in U.S. Patent 2,844,581, exists in a number of crystalline phases such as the a-phase, the β-phase and the y-phase.

Recently, y-quinacridone has had a good market in the automotive and construction industries in view of the fact that this pigment produces a deep red metallic paint in the quinacridone color range. So far, y-quinacridone has been commercially produced from quinacridone by grinding quinacridone after its production by oxidation of dihydroquinacridone. Reference is made to US Pat. No. 2,844,581. Other patents in this same general field are U.S. Patent Nos. 3,160,510,3257,405 and 3,342,823. Grinding quinacridone to form the y-quinacridone pigment is of course an additional step in the preparation of the pigment and requires additional energy input, additional Time, additional facilities, etc. To date, however, all known methods for producing y-quinacridone have involved the quinacridone being ground.

It is therefore an object of the invention to produce y-quinacridone, the y-quinacridone being obtained directly upon the ring closure of dianilinoterephthalic acid. These and other objectives will become apparent from the description that follows.

The process according to the invention is characterized in that a mixture of dianilinoterephthalic acid with a content of 1 to 20% by weight di- {ortho-substituted> anilinoterephthalic acid is heated to above 70 ° C. in the presence of polyphosphoric acid and then with water or with water miscible diluent treated and the precipitated y-quinacridone wins.

If one works according to the present method, i. H. If the ring closure of dianilinoterephthalic acid is carried out in the presence of the ortho-substituted dianilinoterephthalic acid, it is shown that this is caused by the impregnation of the reaction sludge, i. H. Diluting with water or the product obtained with the water-miscible organic liquid is the y-quinacridone, i.e. H. shows an X-ray diffraction pattern which is in agreement with the diffraction pattern which is generally used to identify the crystalline y-form of quinacridone. Thus, the process of the present invention provides a process for the direct production of y-quinacridone and eliminates the need for the additional milling step previously required to produce this crystalline phase of the quinacridone pigment.

The y-quinacridone pigments obtained by the process according to the invention have excellent durability and durability in the open and are useful for coloring automotive paints, paints and building paints. They are particularly useful in the manufacture of red architectural paints and transparent metallic automotive paints.

The process of the present invention provides a simple, economical route to the production of y-quinacridone that eliminates the need for certain operations previously thought to be required to produce this crystalline quinacridone phase. In addition, it is quite surprising that the process of the present invention yields y-quinacridone, because current quinacridone technology would usually predict that mixing or treating a polyphosphoric acid solution of unsubstituted dianilinoterephthalic acid containing 1 to 20 parts by weight of the diortho- substituted anilinoterephthalic acid with water or with a water-miscible organic liquid would give the violet ß-phase of quinacridone. However, it was found that this is not the case and that when working within the limits given above, the quinacridone formed gives a y-type X-ray diffraction pattern.

When carrying out the process according to the invention, the dianilinoterephthalic acid is mixed with 1 to 20% by weight di- (ortho-substituted) anilinoterephthalic acid and dissolved in polyphosphoric acid. The use of polyphosphoric acid as a ring-closing agent is known in quinacridone technology, for example through US Pat. Nos. 3,257,405 and 3,342,823. As the prior art shows, the polyphosphoric acid should have an acid content (H3PO4) of at least 100%. The polyphosphoric acid strength is preferably between 114 and 120%. The mixture is heated to a temperature above 70 ° C., preferably to a temperature between 80 and 120 ° C., with stirring. After the ring closure, which usually takes 4 to 16 hours, the mixture, after it has preferably been cooled below 100 ° C., is diluted with a water-miscible organic liquid or water. The addition of the water-miscible organic liquid usually leads to a sludge which is then heated to reflux conditions with water.

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water soaked, filtered, washed acid-free, boiled with caustic soda to remove traces of acid, filtered, washed free of alkali and dried to give the red solid y-quinacrone pigment.

The water-miscible organic liquids which can be used in the process according to the invention lead to the formation of extremely attractive quinacridone shades.

Among these liquids that can be mentioned are alcohols such as methanol, ethanol, isopropanol, glycerin, diacetone alcohol, diethylene glycol or the like, or 1 »ketones such as acetone. Preferably an alcohol is used as the water miscible organic liquid to soak the mixture, and most preferably methanol is used for this purpose.

As stated above, the amount of di- (ortho-15 substituted-) anilinoterephthalic acid is between 1 and 20% by weight of the dianilinoterephthalic acid starting material. If e.g. B. the substituted material is present in an amount between 1 to 10% by weight, the reaction product is preferably precipitated with an alcohol such as methanol, and when the substituted material is present in amounts of about 10 to 20% by weight is present

the reaction product is preferably precipitated with water. Amounts greater than 20% by weight generally result in a product which gives a substantial change in its X-ray diffraction pattern, indicating that r, the desired y-quinacridone has not been formed. Similarly, if amounts below 10% are used and the reaction product is precipitated only with water, the X-ray diffraction pattern, in contrast to the precipitation with a water-miscible organic liquid, shows that the y-quinacridone has not formed.

“Ortho-substituted” dianilinoterephthalic acid means a substitution of the 4- and 11-position of dianilinoterephthalic acid. Halogen substituents, i.e. H. Chlorine, fluorine,

Bromine and iodine, but especially chlorine, are the preferred substituents in the present invention. Other examples of substituents that can be mentioned are alkyl groups such as methyl, ethyl, propyl and butyl, alkoxy groups such as methoxy, ethoxy, propoxy and butoxy, halogenated alkyl groups, i.e. H. mono-, di- and trihalogenated alkyl groups with 1 4 «to 4 carbon atoms and carboalkoxy groups with 1 to 4

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Carbon atoms such as the carbomethoxy group and the car-boethoxy group.

The following examples serve to further explain the invention.

example 1

26.9 parts of dianilinoterephthalic acid and 1.0 part of di <ochloro anilinoterephthalic acid were added to 195 parts of polyphosphoric acid with an acid strength of 118%. The mixture was heated to 102-105 ° C for 16 hours and then cooled to 90 ° C. The cooled mixture was poured into 375 parts of methanol at 35 ° C. The resulting slurry was refluxed for 1 hour and then poured into 600 parts of water, heated to 60 ° C for 30 minutes and then filtered, washed acid-free and reslurried with 75 parts of 50% sodium hydroxide solution and 1500 parts of water and boiled for 1 hour. After filtering and alkali-free washing, the moist presscake was slurried in 750 parts of water with a pH between 3 and 3.5 with dilute HCl and heated to 70 ° C. for 30 minutes. Filtration, acid free washing and drying at 180 ° C. overnight gave 25 g of a red solid with an X-ray diffraction pattern corresponding to that of y-quinacridone. (All parts above are parts by weight unless otherwise expressly stated.)

Example 2

25.1 parts of dianilinoterephthalic acid and 2.74 parts of di- (o-chloroanilino) terephthalic acid were added to 195 parts of polyphosphoric acid with an acid strength of 116.6%. The mixture was heated to 102-106 ° C for 16 hours and then cooled to 90 ° C. The cooled mixture was poured into 100 parts of water at 20 ° C. The resulting slurry was stirred for 15 minutes, boiled for 1 hour and then filtered, washed acid-free and reslurried with 75 parts of 50% sodium hydroxide solution and 1500 parts of water and boiled for 1 hour. Filtration, alkali free washing and drying at 82 ° C. overnight gave 23 to 25 g of a red solid with an X-ray diffraction pattern corresponding to y-quinacridone. (All parts are parts by weight unless otherwise specified.)

Claims (6)

619729 PATENT CLAIMS 1. A process for the preparation of y-quinacridone, characterized in that a mixture of dianilinoterephthalic acid with a content of 1 to 20 wt .-% di- (ortho-substituted-anilinoterephthalic acid in the presence of polyphosphoric acid on top Heated to 70 ° C. and then treated with water or a water-miscible diluent and the precipitated y-quinacridone is obtained. 2. The method according to claim 1, characterized in that one uses the di- (ortho-substituted> anilinoterephthalic acid in amounts between 10 and 20% by weight and water as a diluent. 3. The method according to claim 1, characterized in that the di- (ortho-substituted) -anilinoterephthalic acid is used in amounts between 1 and 10% by weight. 4. The method according to claim 3, characterized in that the reaction mixture is diluted with an alcohol, especially methanol. 5. The method according to any one of claims 1 to 4, characterized in that the di- (ortho-substituted) -anilinote-rephthalic acids used are those whose substituents are halogen atoms, alkyl groups with 1 to 4 carbon atoms, alkoxy groups with 1 to 4 carbon atoms , halogenated alkyl groups with 1 to 4 carbon atoms or carboalkoxy groups with 1 to 4 carbon atoms. 6. The method according to claim 5, characterized in that one uses di- (ortho-substituted) -anilinoterephthalic acids, the substituents of which are chlorine atoms or methyl groups.