DE1597866C - Electrophotographic recording material - Google Patents

Description

Carry out substance developer before the intensity of the latent image decreases noticeably.

Experiments have shown that a mixture of vinyl acetate emulsion and polyvinyl acetate added to a photoconductive ZnO and the resulting mixture applied to a base and dried to make an electrophotographic plate that can be used for about 3 minutes retains essentially the same surface potential as was reached immediately after exposure. Therefore, the latent image keeps the same intensity for approximately 3 minutes, and so does the development process can be performed during this period of time, with a suitable cast of sufficient Density and satisfactory contrast between image and non-image areas is obtained.

It has also been shown through experiments that it is possible to increase the recovery time of the memory, effect depending on the properties of the photoconductive material to be controlled by the mixing ratio 'the water-soluble resins used is changed. It is also possible to take the time to relax shortening and controlling the memory effect in a more effective way by using the water-soluble Resin-binder mixture of a mixture of photoconductive ZnO and a small amount an organic acid, such as. B. citric acid or oxalic acid is added.

The invention is explained with reference to the drawing.

Fig. 1 is a graph of the decay curves showing the times required for recovery from the memory effect as a function of the density of the developed image and the passage of time after the exposure is turned off. The solid curve A shows the ideal state of recovery from the memory effect and explains the intensity of the latent image with the passage of time. The time interval T _e indicates that for an exposure

ίο indicates the time required to obtain a sufficient latent image, and the time indicated as minutes is the time at which the exposure is stopped. The time interval T _a of approximately 3 minutes shows the time within which the latent image should be developed after the exposure has been switched off.

The time T _b shows the time required to recover from the memory effect and to completely dissipate the latent image after exposure. The time T ₀ ' shows the time required to recover from the memory effect after the electrophotographic plate is exposed to daylight, and this time is substantially the same as the time T _b . F i g. Figure 2 shows the decay curves illustrating the time required for memory recovery as a function of the density of the developed image for five different electrophotographic plates in which the photoconductive coating layers were formed with different composition ratios of the two water-soluble resins in the mixture.

2 Curve 1.5 $ 1 3 3 3 0.5 4th 1.5 2.5 10 4th 0.5 10 2 right after 10 10 right after 10 exposure right after inside exposure right after 1 exposure 3 minutes 5 exposure 9 0 3 8th 3 9 6th 8th

Vinyl acetate emulsion, g

Polyvinyl acetate g

Microcrystalline zinc oxide, g

Good density when developed in minutes

Exposure ..:

Quick decrease after minutes

Recovery from the memory effect after minutes.

The table above shows the proportions of the water-soluble Resins and microcrystalline zinc oxide and the results obtained therefrom.

It can be seen that the curves labeled 1 to 5 in FIG. 2 special electrophotographic Plates correspond so that the curve number in the table above is the memory effect properties of the corresponding sample.

Curve 1 shows the state of recovery from the memory effect caused by exposure to the electrophotographic plate 1, the photoconductive coating layer of which is composed of a mixture of 4 g of vinyl acetate emulsion and 0.5 g of polyvinyl acetate per 10 g of microcrystalline zinc oxide.

Curve 2 shows the state of recovery from the memory effect caused by exposure to the electrophatographic plate 2, the photoconductive coating layer of which is composed of a mixture of 3 g of vinyl acetate emulsion and 1.5 g of polyvinyl acetal per 10 g of microcrystalline zinc oxide.

Curve 3 shows the state of recovery from the memory effect, caused by exposing the electrophotographic plate 3, its photoconductive coating layer from a mixture of 2.5 g of vinyl acetate emulsion and 2 g of polyvinyl acetal per 10 g of microcrystalline Zinc oxide.

Curve 4 shows the state of recovery from the memory effect caused by exposure to the electrophotographic plate 4, the photoconductive coating layer of which is composed of a mixture of 1.5 g of vinyl acetate emulsion and 3 g of polyvinyl acetal per 10 g of microcrystalline zinc oxide.

Curve 5 shows the state of recovery from the memory effect caused by exposure to the electrophotographic plate 5, the photoconductive coating layer of which is composed of a mixture of 0.5 g of vinyl acetate emulsion and 4 g of polyvinyl acetal per 10 g of microcrystalline zinc oxide.

Each of the electrophotographic plates 1 to 5 was exposed and developed. The density of the so developed image was measured with the densitometer. The density of the developed image is used for each example by the corresponding curve in FIG. 2 reproduced. A dense image will be on the Electrophotographic plate 1 produced if it developed within 3 minutes of exposure will. The density of the developed image, however, becomes very low for the sample 1 when the developing

5 6

In the time interval between 3 and 5 minutes of solution, 10 g of polyvinyl acetal (100% pure

takes place after exposure, and one obtains uniformity), 30 g vinyl acetate emulsion (100% purity),

No visible picture at all when it is 6 minutes after 100 g of microcrystalline zinc oxide of one grain size

exposure is developed. This means that between 0.1 and 0.3 μ and 250 cm ^{3 of} water added curve 1 clearly shows that the photographic. 5 places. The mixture is then 1 hour in one

Plate 1 ground in 6 minutes after exposure by the Ge ball mill and then on a

memory effect recovered. Art paper layer with a thickness of 10 μ

The electrophotographic plate 2 is made and dried. One observes that

dense image when the electrophotographic plate thus produced is inserted into it immediately after exposure

is being developed. The decrease speed is 10 minutes after the exposure of the memory

5 minutes after the exposure very high, and the effect recovered.

Plate 2 recovers in 8 minutes after exposure B eis ο ie 1 II
entirely from the memory effect.

The electrophotographic plate 3 produces 6 g of succinic acid in 1000 cm ^{3 of} warm dense image when it is dissolved immediately after exposure to 15 water, and 30 cm ³ of such amber is developed. The decrease speed will. Acid solution are 15 g of polyvinyl acetal (100% 3 minutes after exposure, and the plate is pure), 20 g of vinyl acetate emulsion (100% pure recovers completely in 8 minutes after exposure), 100 g of microcrystalline zinc oxide and 250 cm ^{3 of} the memory effect. Water added. The mixture is then

The electrophotographic plate 4 is ground in a ball mill and then ground

Visible image, with a slightly lower density than in a layer thickness of 10 μ on art paper

, the image which is applied to the electrophotographic and dried. It is observed that

Plates 1, 2 and 3 was produced when the plate 4 is the electrophotographic plate thus prepared

is developed immediately after exposure. In 6 minutes after the exposure from the memory

electrophotographic plate 4 recovers in 9 mi effects.

utes completely from memory after exposure. As described above, the elec-

effect. . . trophotographic plate according to the invention

The electrophotographic plate 5 produces a quick memory effect produced by an exposed image of substantially the same direction. As a result, the electrophotographic plate 4 can be handled with and for the electrophotographic plate such as the visible image formed with the electrophotographic plate in light without damage, so that a clear and conical image is obtained in 9 minutes after exposure Completely harmoniously developed image on the electrophotovom memory effect. _t 'graphic plate even after prolonged exposure to light

It will be apparent that other photoconductive ones can also be made. One can use the electrophoto-

Materials in place of the microcrystalline zinc oxide 35 graphic plate for a sufficient time of 4

according to the invention can be used in practice to keep in the dark for 9 minutes and then so

be able. use treated electrophotographic plate,

In order to explain the invention more clearly, a copy is made by exposing the invention to a photograph Examples are given without disclosing the invention and then the picture in the usual way limit. 40 to develop.

Accordingly, the invention makes it possible

Example I to generate a good electrostatic pressure quickly and also the charge-free electrostatic

10 g of tartaric acid are in 1000 cm ³ warm water pressure process with ongoing reproduction work

sers solved, and use 30 cm ³ of such a tartaric acid 45 in office operations.

1 sheet of drawings

Claims (1)

Patent claims as well as a packaging method preventing the reproduction of the reproduction process, and it 1. Electrophotographic recording ma- give great difficulties, the known material for use in an electrophotographic material. to be used satisfactorily in order to flee Process in which a recording material is used for electrostatic printed matter exposed without charging and the setting. development image is developed from a layer wheel. The invention is therefore based on the object ger and a ZnO binder layer, the two to overcome the previous difficulties and contains various binders, thereby forming an electrophotographic recording material characterized that the ZnO binder io to indicate the circumstances in the office work shift A mixture of poly-operation is sufficient as a binding agent in that it is suitable for its memory vinyl acetal and polyvinyl acetate. a latent image for a sufficient period of time. 2. Recording material according to claim 1, to prevent the development of a visible image characterized in that the weight to complete, and then quickly from the memory holder from polyvinyl acetal to polyvinyl acetate 15 effect to recover after exposure, so that the is between 0.5: 4 and 4: 0.5. Recording material not affected by exposure 3. Recording material according to claim 1, is damaged and used in the usual way characterized in that the weight can be lost after it has been for a sufficient time ratio of ZnO to binder mixture 10: 4.5 to restore the original properties of the amounts to. - ao memory effect was arranged in the dark, and an image with good contrast can be obtained. The subject of the invention with this task is dissolved, is an electrophotographic record- voltage material for use in an electrical 25 photographic process in which a recording The invention relates to an electrophotonungsmaterial exposed without charging and the La- Graphic recording material for use in the development image is developed from a support in an electrophotographic process in which and a ZnO binder layer, the two different a recording material is exposed without being charged. contains binders, marked that and the charge image is developed from a ZnO binder layer as a binder Layer support and a ZnO binder layer, the mixture of polyvinyl acetal and polyvinyl acetate contains two different binders. contains. Such recording materials with a two Surprisingly it has been shown that The binder mixture of polyvinyl acetal and contains various binders and ZnO For example, from the German patent 35 polyvinyl acetate has far better properties in the layer font 1065 723 and the British patent specifications meaning the problem to be solved. leads; than she with 1 020 504 and 1 020 506 known. In the latter alkyd resin, silicone resin, polyvinyl acetal or poly- Both are very numerous plastic binders vinyl acetate alone can be achieved; the invention listed, the binding agent mixture to be used individually or in combination results in one of the required turn, and among the numerous possible 40 development time subsequent recovery time from Materials are also polyvinyl acetate and polyvinyl acetal memory effect much shorter and thus more practical as such, but not their special combination of durations that are significantly more useful than one of those mentioned thinks. Binder alone. So far, experts have assumed that a water-soluble The. Weight ratio of polyvinyl acetal to Lich resin to produce a dense image with 45 polyvinyl acetate is appropriate between 0.5: 4 and high contrast is not suitable, and therefore became 4: 0.5. Preferably alkyd resin is used as a binder for a photo- The weight ratio of ZnO to the binder with conductive material and the resulting mixture is preferably about 10: 4.5.
Mixture on a support plate as a layer substrate. The recording material according to the invention can be applied and dried. Even if alkyds are produced by using resin as a binder on a substrate, one obtains no image with sufficient contrast from art paper or the like, and from photoconductive ZnO with an aqueous emulsion after exposure of the alkyd resin-coated Electro- sion of polyvinyl acetal and polyvinyl acetate on photographic plate required it for the electri- cal and the coating on the substrate to dry in a trophotographic plate for 24 hours or more, 55 uniform layer. The thus produced electrically recovering from the memory effect, and hence the trophotographic plate, has the property that the known electrophotographic plate had to suffer from the memory effect or from exposure after exposure for an extremely long time. recover so that even if the electrophotographs were kept in the dark before being lightly exposed to the phical plate, such reproduction could be used. In order for this 60-exposed electrophotographic plate to be brought to its initial state of delay in recovery from the memory effect by placing the alkyd resin-coated electrophotographic plate in the dark for a sufficient time to overcome the plate material, the initial state of photoconductivity was restored. Also, the capable coating of the electrophotographic plate has a memory effect such that the exposure of the electrophotographic plate is heated prior to use, or the photoconductive over-photographic plate with a photo-permeable layer has been protected from light by putting a suitable light-tight package in the memory effect for a sufficient time would. will hold that it is possible to sufficiently complicate both the heating method developing an image with a suitable coloring