GB2275930A - Pigment dispersion - Google Patents

Abstract

Solid particulate pigment/resin dispersions are produced by (i) mixing together: (a) a solid resin carrier; (b) a water-immiscible volatile organic liquid which is a solvent or partial solvent for the resin; (b) a particulate pigment; (d) water; and, optionally, (e) a water-miscible solvent; until the mixture separates into an aqueous phase comprising largely water and a coherent phase comprising resin, organic solvent and pigment; (ii) separating the water from the coherent phase; and (iii) continuing to mix the coherent phase whilst removing organic solvent therefrom under the action of heat and/or reduced pressure, until a dry particulate material pigment and resin is formed.

Description

DISPERSION This invention is concerned with improvements in and relating to the manufacture of pigment/resin dispersions for use, for example, in the production of surface coating compositions.

Surface coating compositions, such as printing inks and paints, commonly comprise three constituents, namely one or more resins or polymers together with a liquid diluent or solvent, and, as colourant, a pigment. The pigment is generally insoluble in any of the other constituents of the coating composition and the dispersion of the pigment in the resinous vehicle is a principal task in the manufacture of such compositions.

It is known to provide pigment/resin dispersions which may be mixed with further or other resins and appropriate liquid vehicles to form the desired coating composition.

It is an object of this invention to provide an improved method for the manufacture of solid, particulate pigment/resin dispersions.

According to the invention there is provided a method for the production of a solid particulate pigment/resin dispersion which comprises the steps of: (i) mixing together: (a) a solid resin carrier; (b) a water-immiscible volatile organic liquid which is a solvent or partial solvent for the resin; (c) a particulate pigment; (d) water; and, optionally, (e) a water-miscible solvent; until the mixture separates into an aqueous phase comprising largely water and a coherent phase comprising resin, organic solvent and pigment; (ii) separating the water from the coherent phase; and (iii) continuing to mix the coherent phase whilst removing organic solvent therefrom under the action of heat and/or reduced pressure, until a dry particulate material comprising pigment and resin is formed.

The method of the invention is preferably carried in a single apparatus having means for mixing the contents of the apparatus, means for withdrawing the aqueous phase in step (ii) of the method, and means for reducing the pressure and/or heating the interior of the apparatus. Conveniently, the apparatus takes the form of a generally horizontally arranged drum with appropriate mixing means located on a horizontal rotatable shaft mounted in the drum. A particularly preferred form of mixing apparatus is that described in EP-A-0451747 and EP-A-0422454. Such apparatus is sold under the trade name Discotherm by List A.G. of Arisdorf, Switzerland.

In this apparatus the contents in a horizontal housing are kneaded and/or mixed by elements mounted on a central rotatable shaft and consisting of radial disc segments terminating in transverse bars close to the housing wall. As the shaft rotates, segements and shaft are freed of adherent material by cranked elements (hooks) attached to the housing wall. From a radial terminal stub integral with the housing wall, the crank element bends into a section parallel to the transverse bar, then a generally radial section, and finally an arm parallel to the shaft surface.

In the following description, where appropriate, reference to the apparatus used is to apparatus of the particular type described above but, of course, other mixing and/or kneading apparatus may be employed in accordance with the invention.

The method of the invention is carried out using four basic ingredients, namely resin, water-immiscible organic solvent, pigment and water. The resin may be any of a wide variety of film-forming resins of polymeric materials such as are used in the manufacture of surface coating compositions. A wide variety of these are available and a general discussion of film-forming polymeric materials, for use in surface coating compositions, is to be found in the book "The Chemistry Of Organic Film Formers", D.H. Solomon, Robert E. Krieger publishing company, 2nd Edition, 1982. (See especially Chapters 2, 3, and 6 thereof).

Resins or polymers particularly suitable for use in the manufacture of the inks are described, for example, in the Printing Ink Manual, 4th Edition, Van Nostrand Reinhold (International), 1988, see especially Chapter 4, Section IV. Particular examples of resins which may be especially noted include cellulose acetate propionate (CAP) and nitrocellulose. It should be noted that we have found that the method of the invention may not be appropriate to all film-forming resins. Thus, for example, we have found that polyvinyl butyral resins do not always give a satisfactory particular final product. However it is a matter for simple test to establish whether any particular resins/pigments/solvent combinations can be processed in accordance with the invention.

The organic solvent should be volatile, that is it should be capable of being removed under the action of heat and/or reduced pressure. A variety of solvents may be employed and these include esters such as n-propyl acetate and butyl acetate, and ketones such as are commonly used in the surface coatings industry.

The pigment employed may be any of wide variety of pigments as used to colour surface coating compositions. Suitable pigments are, for example discussed, in the Printing Ink Manual, referred to above, at Chapter 4, Section I.

The final component of the initial mixture, water, needs no special comment save to say that water separated during the course of the method of the invention, in step (ii), may be re-used or recycled for use in this first step, if necessary with the addition of make-up water.

The relative proportions of the various components of the initial mixture may vary within wide limits. An important factor will be the weight ratio of resin to pigment, since this will determine the composition of the final particulate product, and this ratio is suitably from 0.8 to 0.33, especially 0.6 to 0.33, parts by weight of resin per part by weight of pigment. The amount of organic solvent employed is conveniently calculated on the basis of the resin employed and, thus, the weight ratio of solvent to resin is suitably from 0.9:1 to 2.2:1, especially 1.1:1 to 1.7:1. Finally, the amount of water incorporated in the starting mixture is suitably from 0.75 to 1.5, especially about one part by weight per part by weight of pigment.

An optional ingredient which is usefully present in the starting mixture is a volatile water-miscible organic solvent which may, or may not, be solvent for the resin. Examples of suitable water-miscible solvents include alcohols such as isopropyl alcohol, n-propyl alcohol and butyl alcohol. The water-miscible solvent which, inter alia, is believed to assist in wetting of the pigment in the initial stages of mixing, is suitably present in an amount of from 0.3 to 1.0 parts by weight, preferably 0.5 to 0.8 parts by weight, based on the weight of resin and may replace a part of the water-immiscible solvent.

In the initial stage of the method of the invention, the various ingredients are charged to the mixing apparatus. The ingredients may be added in any order. The water and/or organic solvent will, of course, be added in liquid form. The resin is conveniently added in particulate form. The pigment will usually should be in particulate or powdered form but it may also be in presscake form.

Once all the components have been added to the mixing apparatus, the apparatus is closed and mixing is started. During the course of this initial mixing, it is believed that the water serves as a vehicle for assisting mixing, grinding and general contact between the components of the mixture. As mixing progresses, the contents of the apparatus become heterogeneous, separating into a generally coherent mass comprising resin, pigment and organic solvent and, as a separate phase, water. Once most of the water (e.g. 70% or more thereof) has separated out, it is removed from the mixing vessel, during the course of which removal mixing may be continued or not, as desired.The total period required from starting mixing to removal of the separated water will, of course, vary depending upon the nature of the components of the starting mixture, their relative proportions, the degree or intensity of mixing, etc. However, generally a period of 5 to 60 minutes, especially 10 to 20 minutes, will prove sufficient.

The separated water having been removed from the mixing apparatus, mixing is continued under conditions favouring removal of volatile organic solvent from the mixture in the mixer. Typically, reduced pressures of 0.05 to 0.5 bar, especially 0.1 to 0.3 bar, and temperatures of 50 to 1000C, especially 55 to 850C, have been found suitable for the operation of this stage of the method. As the mixture is mixed whilst the organic solvent is removed the mass becomes increasingly stiff or viscous until, generally quite swiftly, it starts to break down into dry particulate form. The periods of time required from the start of mixing with removal of volatile organic solvent to the formation of the final dry particulate product will vary widely, however a period of say, 1 to 10 hours (depending on the product and machine capacity) will generally be appropriate.

The final product comprises the pigment dispersed in the resin (or coated with an intimate coating of the resin) together with small amounts (e.g. up to 2.5 by weight) of water and organic solvents. The final product is obtained in particulate form, generally having a particle size of 0.3 to 10mum.

The volatile organic solvent removed from the mixed mass in the mixture is, most conveniently, condensed and recycled or reused, e.g. may be returned or reused as the organic solvent component of the starting mixture, or a part of that component.

The particulate final product obtained in accordance with the invention is a dry material which may be stored and/or transported without final treatment other than being put into appropriate containers. The product may then be used in the manufacture of coating compositions, such as printing inks or paints, to supply all of the pigment and all or part of the resin vehicle of the coating composition. Generally, the coating composition will be made up by simply stirring the product of the present invention, optionally with further resin, and an appropriate liquid vehicle, optionally with suitable additives, to form the desired composition.

In order that the invention may be well understood, the following Examples are given by way of illustration only.

The following examples were carried out using a Discotherm DTB3 Batch machine suppied by List AG of Arisdorf, Switzerland.

Example 1 1800 gm of a CI 15.4 (phthalocyanine blue) pigment was taken and charged to the mixer with 1660 gm water followed by a solution of low viscosity, low nitration grade nitrocellulose (30% damped with isopropanol), dissolved in 250 gm iso-propanol and 550 gm butyl acetate.

These were mixed at about 30 rpm, initially to form a homogeneous mass. After 5 minutes mixing this separated into a smooth, firm dough and an aqueous phase.

After a further 10 minutes mixing the machine was stopped and the aqueous phase drained off. Mixing was then continued with the application of heat (800C) and vacuum (150 mbar) to remove the remaining volatile components. These were condensed and collected for reuse.

After a further 15 minutes the mix was seen to crumble into granules. Following this, the shaft speed was reduced to 8 rpm and the application of heat and vacuum continued until a product of 98% non-volatile content was obtained. This was mainly in the form of fine granules and powder.

The product was dissolved into a nitrocellulose flexographic ink medium to give an ink displaying excellent gloss,colour strength and transparency when printed.

Example 2 The same procedure as for Example 1 was followed except that the charge was: 1660 gm. CI 15.4 pigment; 1800 gm water; 1110 gm nitrocellulose; 250 gm iso-propanol; 550 gm iso-propyl acetate.

In this case a pressure of 300mBar was maintained until the mix had crumbled to prevent too fast a granulation giving less energy input. Thereafter the pressure was reduced to expedite drying.

A similar product was obtained to that obtained in Example 1 and which gave comparable results when converted to a flexographic ink.

Example 3 1660 gm of CI 53.1 (Lake Red C) pigment was charged to the mixer with 1740 gm water; 838 gm "alcohol soluble" cellulose acetate proprionate; 460 gm iso-propanol; 715 gm butyl acetate.

These were mixed at 35 rpm to give a homogeneous paste which separated as in Example 1 after 5 minutes.

Mixing was continued for a further 15 minutes and then the machine was stopped and the aqueous phase removed.

Mixing was continued under heat (75 deg. C.) and vacuum (200mBar gauge) for 20 minutes until the material had crumbled.

Mixing was continued under heat and vacuum until a dry, powdery product of 97% non-volatiles was obtained.

When the product was dissolved in a suitable gravure ink medium the subsequent ink gave excellent gloss, colour strength and transparency when printed.

Claims (4)

CLAIMS:

1. A method for the production of a solid particulate pigment/resin dispersion which comprises the steps of: (i) mixing together: (a) a solid resin carrier; (b) a water-immiscible volatile organic liquid which is a solvent or partial solvent for the resin; (b) a particulate pigment; (d) water; and, optionally, (e) a water-miscible solvent; until the mixture separates into an aqueous phase comprising largely water and a coherent phase comprising resin, organic solvent and pigment; (ii) separating the water from the coherent phase; and (iii) continuing to mix the coherent phase whilst removing organic solvent therefrom under the action of heat and/or reduced pressure, until a dry particulate material comprising pigment and resin is formed.

2. A method as claimed in claim 1 in which the process is carried in a single apparatus having means for mixing the contents of the apparatus, means for withdrawing the aqueous phase in step (ii) of the method, and means for reducing the pressure and/or heating the interior of the apparatus in step (iii) of the method.

3. A method as claimed in claim 2 in which the apparatus takes the form of a generally horizontally arranged drum with appropriate mixing means located on a horizontal rotatable shaft mounted in the drum.

4. A method as claimed in claim 1 substantially as hereinbefore described with reference to the Examples.