DE2262478B2 - Process for the preparation of an image receiving material for charge images - Google Patents

Description

The invention relates to a method according to the preamble of claim 1.

In such, from DE-AS 1181547 known Process becomes an aqueous solution of a volatile alkaline nitrogen compound and one Mixed polymer of vinyl acetate and crotonic acid applied. To a penetration of this An aqueous solution-forming layer in the paper can be prevented, for example, with paraffin wax Sized paper can be used or can be used before applying the insulating layer to the paper an intermediate layer of a water-repellent substance can be applied. Disadvantage of the known The method is therefore that of preventing the layer from penetrating into the paper, a special one Paper must be used or, in an additional process step, a water-repellent one Substance must be applied to the paper.

The invention is based on the object of providing a method in which penetration of the layer formed from the aqueous dispersion and migration of the in the support Conductive agent contained in the layer is largely avoided.

This object is achieved by the measures specified in the characterizing part of claim 1.

Preferred refinements of the invention are given in the subclaims.

The term "minimum film-forming temperature" as used herein refers to the temperature below which the dispersion no longer forms a film after the water has been driven off. The minimum film formation temperature refers to a property of the dispersion. Because of the conditions necessary for film formation are necessary, see Myers and Long "Film-Forming Compositions", Vol. 1, Chapters 1-3 referenced.

The advantages that can be achieved by the invention are in particular that the polymer coating onto the substrate, for example the paper, with conventional coating devices in Can be applied in the form of a smooth, coherent film and the dielectric properties of the Surface are independent of the environment, i.e. the surface is insensitive to water vapor. Of the The coating is also non-sticky at all temperatures that can be expected during use and does not yellow and produces an intense, sharp image with no background discoloration, caused by absorbing too much toner. As a wandering of the in that Layer substrate contained conductivity agent is largely avoided, the electrical resistance the polymer layer hardly affected.

To reduce the tackiness of the polymer layer, the aqueous dispersion can contain a pigment contain. Preferably it contains up to about 20 parts by weight pigment per 100 parts by weight dry Polymer.

According to the embodiment of the invention according to claim 2, it is applied to the dried polymer layer a second aqueous dispersion with a minimum film formation temperature The image receiving material is suitable when applied at a temperature of more than 30 ° C and dried especially for printing machines that work with dry toner. The second polymer layer is non-sticky, so less toner is absorbed by the background. The second aqueous dispersion preferably has a minimum film-forming temperature of 60 to 180 ° C. The The second aqueous dispersion can also contain a pigment.

jo The polymer layer should in particular be smooth and cohesive. The smoothness is desirable so the layer does not take up too much toner during processing and the continuity of the layer to Example is the absence of sand holes

J5 desired to discharge an applied electrical Charge pattern through these interruptions to the electrically conductive layer support prevent, and also to prevent liquid toner from permeating through these interruptions and discolored the substrate.

Various commercially available polymers and their selection are suitable for the purposes of the invention for the respective application does not depend so much on the electrical properties that arise generally similar as dictated by the required physical properties and cost. Usable polymers are z. B. the polyolefins and the substituted polyolefins and the polycondensation products, such as polyester and phenolic resins.

ίο If the image receiving material is very high If moisture is to be used, the polymer should, if possible, not be ionized or ionizable Contain groups and have the lowest possible affinity for water.

Commercially available pigments can be used, e.g. B. titanium dioxide, barium sulfate, silicon dioxide, Clay or zinc oxide.

To the settling of the pigment in the aqueous polymer dispersion to avoid, a pigmented

bo dispersant may be required. Most known Pigment dispersants are ionic and would therefore change the behavior of the dielectric Impair the coating against moisture. Ammonium salts, e.g. B. the ammonium salt of a polycarbonate

fa5 organic acid, but are suitable as pigment dispersants, because when such salts are heated, the ammonia is driven off and a non-ionic one Dispersant in the dielectric covering behind

remain.

The invention is explained in more detail below with the aid of examples.

example 1

A dispersion for applying a dielectric coating is produced according to the following procedure:

Styrene-acrylic polymer dispersion with

a minimum film formation temperature of 27 ⁰ C

Silica pigment with a high specific surface area

Antifoam agents

water

154 kg

13.6 kg 750 ml 30 kg

The silica is slurried in 26.4 kg of water and then added the slurry to the remaining ingredients. The aqueous dispersion is produced in a dispersing device.

The mixture is coated on an electrically conductive base paper using an air knife coating machine in densities corresponding pad densities between 5 and 10 g / m ^2, and the coatings are dried at 100 ⁰ C.

Example 2

A first aqueous dispersion is prepared according to the following procedure:

Styrene-acrylic polymer dispersion with a minimum film formation temperature from 27 ° C 40 kg

Silicon dioxide pigment as in Example 1 5 kg antifoam agent 60 ml

Pigment dispersant in the form of an ammonium salt of a polycarboxylic acid
water

67 ml 93 kg

A second aqueous dispersion is prepared according to the following procedure:

Styrene-acrylic polymer dispersion as in Example 1 13.6 kg

Polystyrene dispersion with a minimum film formation temperature between 100 and 120 ° C 27.2 kg

Silica pigment as in Example 1 3.6 kg antifoam as in FIG first mixture 60 ml

Pigment dispersant as in the first mixture 48 ml

Water 15.6 kg

The first mixture is applied to an electrically conductive paper base according to Example 1 in a density corresponding to a covering density of 7 g / m ² , and the coating is dried at 100.degree.

The second mixture is applied to the dried first covering in a density corresponding to a covering density of 5 g / m ² and dried at 120.degree. C. using the method of Example i.

Example 3

In this example, as in Example 2, two coatings are applied; however, the polymer dispersions have a minimum film-forming temperature for both the first and second coatings below 30 ° C. The first aqueous coating dispersion is manufactured according to the following regulation:

Acrylic polymer dispersion with a
Minimum film formation temperature of
20 ⁰ C 50 kg

Barium sulfate 4.39 kg

Antifoam agent as in Example 1 75 ml
Pigment dispersant as in Example 2 55 ml
Water 19.2 kg

The second aqueous coating dispersion is prepared according to the following procedure:

Styrene-acrylic polymer dispersion with
a minimum film formation temperature
from 27 ° C 24 kg

Kaolin 12 kg

Pigment dispersant as in Example 2 150 ml
Antifoam agent as in Example 1 36 ml
Water 24 kg

As in Examples 1 and 2, the first mixture is applied to an electrically conductive paper base in a density corresponding to a covering density of g / m ² , and the coating is dried at 100.degree.

As described in Examples 1 and 2, the second mixture is applied to the dried first covering in a density corresponding to a covering density of g / m ² and dried at 120.degree.

The electrostatic image recording paper obtained in the above examples is made by comparison its behavior with the behavior of commercially available solvent-coated examined and found to be satisfactory.

Claims (3)

Patent claims: 1. A method for producing an image receiving material for charge images, in which on a electrically conductive layer support an aqueous, optionally containing a pigment Dispersion of a polymer is applied and dried, characterized in that that the aqueous dispersion has a minimum film-forming temperature of 30 ° C or less. 2. The method according to claim 1, characterized in that on the dried polymerization layer a second aqueous dispersion with a minimum film formation temperature of more than 30 ° C is applied and dried. 3. The method according to claim 1 or 2, characterized in that a dispersion with up to 20 Parts by weight of pigment per 100 parts by weight of dry polymer is used.