DE2041616A1 - Image plate for image generation through particle migration - Google Patents

Description

9 Π L 1 R 1 R Patent Attorneys Dipl.-Ing. F. Weickmann, TO 4 ι Ol ο

Dipl.-Ing. H.Weickmann, DIPL.-PHYS. Dr K. Fincke, Dipl.-Ing. F. A. Weickmann, Dipl.-Chem. B. Huber

8 MUNICH 86, POST BOX 860 820 MÖHLSTRASSE 22, CALL NUMBER 48 39 21/22

XHA

XEEOX CORPORATION, Rochester, Έ.Ί. 14605, V.St.A.

Image plate for image generation duroh particle migration

The invention relates to an image plate for imaging by particle migration in a softenable layer and its use in imaging.

A method of image generation by particle migration has been proposed which has good image quality, high tint density, continuous tint and high resolution ensured. One is provided on a pad Layer of a softenable fabric and a light-

sensitive 'drawing material through uniform electrostatic Charging and exposure to a pattern of activating electromagnetic radiation such as light with a Providing latent image »The irradiated character particles migrate to the base when the image development by softening the softenable layer is carried out o

The term "softenable" is intended to mean the possibility of making a substance more permeable to migrating particles to maohen. The change in permeability takes place duroh exposure to heat or solvents · under one "breaks

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baren "Sohicht a material is to be understood that during can break during development and thus migrate to the substrate as part of a layer or be removed in some other way Can · The broodable layer can be particulate, semicontinuous or be carried out continuously «

There are also other methods of forming the latent image in which light-insensitive or neutral, broadenable Schiohten and a particulate drawing material can be used for imaging. Even with these procedures different designs are possible

Similarly, there are various options for development latent images known in the partial migration process · A development can, for example, through solvents rinsing, softening with solvent steam, softening duroh heating and combination of these measures take place

When developing images using the particle migration method, the softenable layer of the eye practically completely by means of a solvent together with the non-migrated particulate material be rinsed off, so that an image-wise distributed pattern of migrated character parts remained on the base It turned out that the picture on the base consisting of this drawing material was brittle and very is in a sensitive state because the drawing material is relatively loose and unfixed · The image is sensitive against smearing, scratching, misusing and other un · desired influences when it is moved by hand or comes into contact with wearing objects and fabrics Such deterioration of the image on a partial migration image plate also reduce its physical and optical density

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An unfixed particle migration image can also be viewed However, in this state it has the disadvantage that it can only be used for such purposes that do not require contact with other objects-β For example, it cannot be used as a microfilm,

There have already been different procedures and substances individually and in combination to fix unfixed partial walking migration images suggested "However, these options have so far not produced satisfactory results,"

The object of the invention is to create an image plate for image generation by partial migration which, while avoiding the disadvantages mentioned above, enables a perfect fixation of a particle migration image the image plate to be created can be used as a lithographic printing plate _o

An image plate of the type mentioned above is the solution This object according to the invention designed such that in the softenable layer a particle migration material from a Mixture of light-sensitive and fusible light-neutral character particles is providedα Such an image plate can, as will be described, also be used as a lithographic printing plate · »

A better understanding of the invention and its others Characteristics and advantages emerge from the following detailed description of exemplary embodiments based on the figures «, Show it!

Figoi shows a schematic cross section of an embodiment

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an image plate according to the invention,

2a to 2e are schematic cross sections of an embodiment the imaging plate according to the invention when performing the imaging process and

Figo5 shows a schematic cross section after implementation the method of imaged optical plate according to the invention.,

In Pigd, one embodiment is one of the invention Image plate shown »It is on its base 11 with a transparent and conductive layer 12 and a Matrix of a softenable substance 13 provided, which is a mixture of electrically photosensitive particles 14 and neutral, contains fusible particles 15 dispersed o

The substrate of the image plate can be electrically conductive or insulating and transparent or opaque _e Conductive substrates generally facilitate the charging of the image plate in the electro-optical imaging process _o Conductive substrate materials are, for example, copper, brass, nickel, zinc, chromium, stainless steel, conductive plastics and Types of rubber, conductive paper, aluminum, steel, cadmium, silver, gold and others. Non-conductive substrates are glass, non-conductive paper, plastics such as mylar polyester and others. As already mentioned, the base can already be provided with the softenable layer or the softenable layer is designed to be self-supporting and is brought into contact with a suitable base during the image formation , cylinder, drum, endless belt, Mobius strips, round disc o _o ä · be executed "Combined documents with a conductive layer on an insulating body may be provided, for example, plated with tin oxide coated glass available under the

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Name "NESA" from the Pittsburgh Plate Glass Go. available isto Furthermore, aluminized polyester film, alu « minized "Mylar" (Eel · duPont de Nemours & Go.) or with Copper iodide coated Mylar can be used as a transparent and conductive base »

The softenable layer can consist of one or more softenable substances which are plastic or thermoplastic and which can be softened, for example, in a solvent liquid, a solvent vapor, in heat or a combination of such types of action Teilohenwanderungskraft and the softening electrically insulating ,, the softenable Sohicht to be electrically substantially non-conducting in many embodiments of the imaging method, but also more conductive materials may be used in certain types of processes, because with them, the electric applying a constant and complementary charge in an imagewise distribution leiohter isto If the softening layer is to be dissolved during or after the image generation, it should be soluble in a solvent that did not attack the drawing parts contained in it is about 0.5 and oa. 16 microns.

Typical electrically insulating and softening materials are, for example, Staybelite Ester 10, a partially hydrogenated rosin ester, floral ester, a hydrogenated rosin triester, and Neolyne 23, an alkyd resin, all available from Hercules Powder Co ₀ J silicone resins of type SR from General Eleotrio Corporation} Suorose Benzoate from Eastman Chemical; Velsiool X-37 »a polystyrene-olefin copolymer from Velsicol Chemical Corp. f hydrogenated Piooopale 100, Piooopale H-2, highly branched polyolefins, Pioootex 100, a styrene-vinyl

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"toluene copolymer, Piccoplastic A-75, 100 and 125, three polystyrenes, Piccodiene 2215, a polystyrene-olefin copolymer, all available from Pennsylvania Industrial Chemical Corp .; Araldite 6060 and 6071, epoxy resins from Ciba; R5O61A, a phenylmethyl silicone resin." from Dow Oorning; Epon 1001, a bisphenol A-epichlorohydrin epoxy resin from Shell Chemioal Corp.j and the polystyrenes PS-2 and PS-3 and ET-693, a phenol-formaldehyde resin from Dow Chemical; also conventionally synthesized copolymers of styrene and Hexyl methacrylate, a conventionally synthesized polydiphenylsiloxane; a conventionally synthesized polyadipate; aoryl resins, available under the trademark Acryloid from Röhm & Haas, under the trademark Lucite from EI · duPont deNemours & Co ·; thermoplastic resins, available under the trademark Pliolite from from Goodyear Tire & Rubber Co .; a chlorinated hydrocarbon available under the trademark Aroclor from Monsanto Chemioal Co ₀ ; thermoplastic polyvinyl resins sold under the trademark Vinylite by Union Carbide Co .; Polyterpene resin, available under the designation NIREZ 1085 from Tenneco Chenw, Ine; other thermoplastic materials of the type described in US Pat. No. 3,196,011, Waohse e as well as mixtures and copolymers of these materials.

Photosensitive substances for the character particles 14 enable the generation of a latent image with an image plate according to the invention by an electro-woptisohen process. Typical photosensitive substances are inorganic or organic photoconductive insulating substances! also substances that undergo a change in conductivity when heated by light and are described, for example, by Cassiers in "Photographic Science ¹ ·, Bngr, 4, No. 4, 199 (1960); further substances that inject charge carriers when exposed to light or light and heat"

Inorganic photoconductors that can preferably be used are due to

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the excellent image quality of amorphous selenium, amorphous selenium alloyed with arsenic, tellurium, antimony or bismuth, etc., amorphous selenium doped with halogens or its alloys as well as mixtures of amorphous selenium and the crystalline forms of selenium including the monoclinic and hexagonal forms «. Other typical inorganic photoconductors are cadmium sulfide, zinc oxide, cadmium sulfoselenide, cadmium yellow such as lemon Cadmium Yellow X-2273 from the Imperial Color and Chemical department of Hercules Powder Co., as well as many other substances. In US Patent 3,121,006 Typical inorganic photoconductive pigment substances sinä said Typisohe organic photoconductors are azo dyes such as Watchung Red B, a barium salt of 1- (4 ^l methyl-5 ^l chlorazobenzol-2 ^l-sulfonic acid) -2-hydrohydroxy-3- naphthenic acid, CIo No. ₀ 15865, a quinacridone, Monastral Red B, both available from DuPontj Indofast Double Scarlet Toner, a pyranthrone-like pigment available from Harmon Colors j Quindo Magenta RV-6803, an ahinacridone-like pigment available from Harmon Colors; Cyan Blue GTHF, the beta form of copper phthalocyanine, CI _e Nro74160, available from Oollway Colors; Monolite Fast Blue GS, the alpha-form metal-free phthalocyanine, CI Hrο 74100, available from Arnold Hoffman Co ·} commercial indigo, available from the National Aniline Division of Allied Chemical Corp .; yellow pigment «substances, prepared according to US Pat. No. 3,447,922 or 3,402,117, the X-form metal-free phthalocyanines, prepared according to US Pat. No. 3,357,989, quinacridonequinone from DuPont, sensitized polyvinylcarbazole, Diane Blue, 3.3 ^liters Methoxy-4f4 ^l -dlphenyl-bis (1 »azo-2 ^ll hyaroxy-3" -naphthanilide), OI "Mr. 21180, available from Harmon Colors; and Algol GG, 1 ^, Sfe-DiiDjD'-diphenylJ-thiazole -anthraquinone, CI. Hr. 67300, available from General Dyestuffs, and mixtures of these substances. The aforementioned organic and inorganic photoconductive and light-sensitive

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Sensitive substances are only examples and do not claim to be complete _β

Any suitable method can be used to carry out the imaging method provided according to a further development of the invention photosensitive substance or any suitable photosensitive mixture of substances, regardless of whether the The respective material is of an organic or inorganic nature and consists of one or more components in solid solution or in dispersion

Other substances that can belong to the photosensitive particle migration substances are organic donor-acceptor (Lewis acid Lewis base) -charge-transferring complex substances from donors such as phenolaldehyde resins, phenoxy resins, epoxy resins, polycarbonates, urethanes, styrene o _o ä # composed with electron acceptors such as 2,4 » 7-trinitor-9-fluorene-non, 2,4,5,7 ~ tetranitro-9-fluorenone, picric acid, 1,3,5-trinitrobenzene, ghloranil, 2,5-dichlorobenzoquinone, anthraquinone-2-carboxylic acid, 4- Nitrophenol, maleic anhydride, metal halides of the metals and metalloids of groups IB and II-VIII of the periodic table, for example aluminum chloride, zinc chloride, iron iron, magnesium chloride, oaloium iodide, strontium bromide, earomobromide, arsenic triiodide, magnesium bromide, tin oxychloride, boron halides such as boron oxychloride, boron halides such as boron halides and anisil, mineral acids such as sulfuric acid, organic carboxylic acids such as acetic acid and maleic acid, subzinyl acid, citraconic acid, sulphonic acids such as 4-toluenesulphonic acid and mixtures of these substances.

The electrically photosensitive substance or its particles that partially adheres to the imaging plate base during imaging wanders, any suitable elektrisoh can be photosensitive Be a substance that during the image exposure a selective discharge of the image plate in the irradiated

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sharing enabled «

Electrical: Light-sensitive substances of the substances in question here Type are all particulate substances that, when dispersed in a softenable, electrically insulating binder or a layer of the Ideso level type, after electrical charging and the action of an image exposure with activating radiation and in contact with a suitable emollient selectively in an imagewise distribution be deposited on a support o

Potoconductive particles (thus, in the broadest sense, are particles meant, which show an increased electrical conductivity when exposed to electromagnetic radiation, however not just those who are in electrophotography for electrophotographic Pigment binder plates are used) can be used in the invention as "electrically photosensitive" Particles are used · Although the photoconductive effect is often sufficient for such a reservoir, he however, it does not have to be present. The one for the invention required effect is the selective relocation of Charges within the partial material, into the particulate material in and out of it, caused by the action of light on the "electrically photosensitive" material will. Activating electromagnetic radiation acts for this purpose.Processes of this kind can be caused by the photoconductivity effect, the photo-injection, photo-emission, photo-chemical effects and other effects occur «,

Will the the drawing material in the softenable Sohioht containing binder board in a partial height migration process of the type described here, so results the uniform electrostatic charge and di · Bildbeliohtuiig with activating electromagnetic

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Radiation a selective collapse of the electric field on the image plate in the exposed parts of the surface, while the field remains in the unexposed parts of the area.

In various preferred embodiments of the invention, the meltable and neutral particles can be used in conjunction with electrically photosensitive particles 14, which in turn may or may not be meltable. In another embodiment of the invention, the meltable and neutral particles 15 and the electrically photosensitive particles 14 can be melted into one another so that a commingled and fused mass of particulate migration material is formed in a fixed image _β

Suitable neutral and fusible partial migrants are Magenta Fluorescent Pigment P-1700-618 available from Radiant Color Company, Richmond, California; Vinylidene fluoride available under the designation Kynar from Pennsalt Chemical Co. ";Polystyrene; the Zytel 101 nylon available from DuPont; Polyethylene; Radiant Fluorescent Pigment available from Radiant Color Co .; Saran resin, F242-L from Dow Chemical Co. ₀ , Midland, Michigan; 3M Scotchcaat Electrical Insulating Resin available from 3M Co., St. Paul, Minnesota) powdered polyvinyl alcohol available from DuPont; VYÜF, a blend of vinyl chloride and vinyl acetate, Types 1705 and 507, available from the plastics division of Union Carbide, Charleston, West Virginia; Tetran, a polytetrafluoroethylene, available from Pennsalt Chemical Oorp .; Polyvinyl fluoride available as Dalvar 720 from Diamond Shamrook, Cleveland, Ohio; powdered polyvinyl chloride, available from Dow Chemical, as well as mixtures of these substances «

In the case of the image plate according to the invention, a part of the neutral and fusible material can be placed between the light- sensitive

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the material and the radiation source " In view of this, clear, neutral and fusible particles are more advantageous because they are less activating Absorb radiation and therefore affect the sensitivity of the image plate less than opaque ones Fabrics is the case.

The melting properties of the neutral and fusible substances consist in the possibility of softening or in a possible reduction of their viscosity up to a point at which neighboring fusible particles combine to form a practically indistinguishable mass of the particle migration pattern are different due to the softening of the softenable layer «. These melting conditions can be created, for example, by the controlled action of a solvent for the neutral and fusible particles after development, by the action of a solvent for the fusible substance that does not attack the softenable layer, or by heating the developed plate to a temperature that causes the neutral particles to melt. The currently available neutral and meltable substances melt generally at temperatures between about 204 ⁰ _e O and above. 315 ⁰ C,

Suitable for use in the invention, light-sensitive or light-neutral and fusible Teilohenwanderungsstoffe have a particle size of above 2 microns ₀ or fewer Preferably their size ca _o 0.02 microns to about 0.5 microns · ·

The imaging plates according to the invention are preferably produced in such a way that the light-sensitive drawing material with approx

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Oa _o 2 to 30 wt .- ^ of softenable material and the neutral and fusible particles having about 5 to about 25 wt - present ° / o of the softenable material.. In addition, ratios of light-sensitive to neutral and fusible material between approx. 1: 1 and approx. 1: 2 are preferably used. For example, good results have been achieved with a composition of about 10 $ photosensitive material, 15 $ neutral and fusible material, and about 75 $ softenable material

A preferred embodiment of the imaging process with the optical disc according to the invention is shown in Figo2. Fig. 2a shows an image plate of the type described in the case of electrostatic charging with an oorona discharge. generation device 16 with a conductive pad grounded at point 17. This creates an electric field on the softenable Layer 13 is generated. In Fig »2b the exposure with a light-shadow image is shown by a light source 18, which shines through an optical mask 19 · This exposure step takes place in the dark, with the preferred Electro-optical particle migration processes, the electrically photosensitive particles 14 are duroh the exposure is sufficiently electrically conductive to prevent the electrostatic charge on the softenable layer 13 generated field to be eliminated. In Fig »2c, the rinse with a solvent 20 is shown, which is the softenable Layer 13 dissolves, but not the particle migration substances 14 and 15. The rinse development takes place in a bath 20 carried out within a container 21, the softening layer dissolved and non-migrated particles 14 and 15 can be detached from the image plate at 22. It should be noted that the neutral and fusible particles 15 in the exposed areas together with the photosensitive particles 14 migrate and be deposited. In Figo2d the developed image plate is shown, at 23 the wandered

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Layer of Zeichenteilchen 14 and 15, its configuration in accordance with a not "exposed area of the image. The melting step of the method is shown in Figure 2e, wherein a device 24 which is a fusion of the Teilchenwanderungsstoffe" is caused used ₀ This can "for example an electric In various embodiments of the method, other measures for fusing the particles can also be used, for example radiant heat generated by laser, conduction heat, ZoBo through contact with a heated plate or roller, or convection heat, ZoB «in an oven, or combinations of these heat species generated "the fusion can also be carried out with different solvents or solvent vapors. DIE in FIG _o 2e shown, imaged image plate includes at 25 the molten around the electrically photosensitive particles 14 around the fusible particles 15» whereby di e character particles 14 are permanently fixed to the base o At the same time, a protective coating is created

A preferred embodiment of the fixed and provided with an image image plate is shown in Figo3, in which electrically photosensitive particles 14 and neutral, fusible particles 15 are used, which can be mutually fused into one another, so that an image is created in which the image areas 26 have the structure a common mix of particulate migration substances that are permanently bound to the substrate and are insensitive to damage from contact with other substances o

According to further embodiments of the optical disc according to the invention, the Teilchenwanderungastoffe in a crushing "cash Sohioiit be arranged, which is provided on the upper Fläohe the erweiohbaren layer ₀ Thereby the part ·

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hiking materials may be embedded slightly, partially or entirely on the surface of the softenable layer or form a coating on it Material has _β

As shown in Figs. With this arrangement, the imaged imaging plate of the present invention is particularly suitable as a lithographic printing plate for use in image reproduction. A lithographic printing plate can be made according to the invention when the materials used for the image plate are selected so that their properties allow use in the printing process. For example, if the printing plate is intended to be used with water-based printing inks such as Scripto Permanent Black, obtainable from WA Shaeffer Pen Company, Ft. Madison, Iowa, are used, their components are selected so that the substrate is hydrophobic and the image area portions 25 or 26 are hydrophilic and can be wetted with water inks . If other printing inks are used, different components must be provided for the printing plate accordingly

An image plate in the one in Figo2e or Pig. The type shown in Fig. 3 is used as a printing plate by first inking it with a brush roll or other suitable device. The inked printing plate is then brought into contact with a receptive surface on which the print is to be produced. A single surface can be opaque or transparent. Suitable fabrics here-

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to are paper, wood, clear plastics, or glass other suitable materials »The image can also be placed on an elastic intermediate image carrier such as z«, B. a rubber blanket from which it is transferred to the final image carrier is applied «. The image transfer, the two-dimensional contact and the coloring can be done very often, depending on your needs can be repeated to produce a desired number of lithographic images of a given quality.

The imaging plate can be used as a printing plate in any configuration can be produced, which facilitated their use in the printing process. For example, a flexible base 11 may be provided, which then on the surface of a botation cylinder is drawn up «However, any other configuration that allows for duplication can also be provided and enabled a continuous printing process

The following examples serve to further specific explanation of the invention respects lent image formation by particle migration and the fixing of the image formed by melting the migrated particles ₀ parts and percentages are by weight unless otherwise specified ") The following examples illustrate various preferably embodiments of the image plate according to the invention and the imaging process provided for it «,

Example I.

An optical disk according to the invention is produced by for the image layer approx. 100 parts by weight Nirez 1085, a polyether resin from Tenne co Chemicals, Inc "" ca ", 15 parts the X-form metal-free phthalocyanines, approx. 100 parts Sohio 3454, a refined kerosene from the Standard Oil Company of Ohio, et al. 20 parts Kynar, one from Pensal Chemical

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Corporation available vinylidene fluoride, and ca · 4 parts 2,6-di-tert-butyl-p-cresol, a Antioxydierungsmittel that reduces aging, available from Eastman Kodak Co., Rochester, New York, vermischt.werden another _e This Coating mixture is milled for approximately 2 hours and 20 minutes in a Red Devil ball mill which has 3.2 mm diameter grinding balls. The coating is then applied to conductive aluminum foil about 0.13 mm thick, available from American Lamotite Corp., with a # 3 Meier spreader stick. The freshly coated substrate is then dried in an oven for about 1 hour at about »5O ⁰ C. It can then be used in an imaging process of the type described in Example III, thereby yielding lithographic printing plates suitable for a printing process described in Example IV.

Example II

An image plate according to the invention is prepared by adding Ca ₀₁₀₀ parts of Nirez, 15 parts of X-form metal-free, 100 parts Sohio 3440 solution and 25 parts of polystyrene resin are mixed together with a molecular weight of ca · 30000 phthalocyanines and the obtained Misohung above. Milling in a ball mill for 2 1/2 hours. As a result of the mixing, the particle size of the polystyrene is reduced to about 1 or 2 microns. The coating mixture is then rolled onto a base consisting of an AoB. Diok aluminum offset plate having a thickness of oa x 0.09 mm and is available from AB Dick Duplicating Products of Chicago, Illinois. Rolling takes place with a Meier roll-up rod No. 6. The coated plate is then in an oven for about 45 minutes at the above. 65 ° C dried

The image plate produced in this way contains neutral and fusible particles which are practically transparent

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and thus transmit the light falling on the image plate during image formation when it is between the radiation source and the photosensitive particles are arranged ο The image plate is after imaging as a lithographic Pressure plate can be used.

Example III

Using the image plate described in Example II with a grounded base, corona charging is carried out in the dark to a positive voltage of about 200 volts. After or during the charging, an image-wise distributed pattern of activating electromagnetic. Radiation, ZeB. visible light, projected onto the surface of the image plate, whereby it is selectively discharged in the irradiated area parts. The image plate is then exposed to an air atmosphere that is saturated with trichlorethylene vapors. For 5 seconds in the dark. The image plate is then taken out of the trichlorethylene atmosphere and dried at Lioht for at least 5 seconds, after which it is charged again at Lioht electrostatic and a charging current corresponding to that of the initial charge is used. The reloaded image plate is then immersed in a moderately stirred bath of triohloroethylene for 10 seconds, during which the Nirex is practically completely dissolved and rinsed off the migrated particles stick to the surface in the unexposed parts of the area. For 10 seconds on oa. 200 ⁰ O heated. This step expands the polyatyrene parts so that they fuse together and create a bond structure in the image area parts. The plate

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is cooled to room temperature and then contains a Fixed, visible positive reproduction of the original image in raised areas of the image. This image plate is called a lithographic Offset printing plate can be used.

Example IY

An image plate is produced according to Example II and provided with an image according to Example III so that it can be used as lithographic printing plate can be used the plate are made more absorbent by applying a brief etching rinse in Golitho Etch, available from Columbia Ribbon & Garbon Co., Glen Cove, Long Island, New York. This printing plate is then used in an offset machine and with an A.B. Diok fluid solution treated. A commercial printing ink, A.B. Dick 4020 available from A.B. Dick Company, Chicago, Illinois, is used in the machine and many copies are made on attachment paper (20 wt). With a This process can produce more than 10,000 copies of the printing plate »

The printing plate is used for storage and further use Wiped off with gum arabic after use to avoid oxidation of the surface.

Example V

An inventive optical disc is produced by Partial in a ball mill of p-1700-618 Magenta Fluoreeoent Pigment, available from Radiant Color Co., Richmond, California, having an average durometer of oa 0.5 microns in a Stabelite Ester 10 binder in a 1: 1 ratio. The binder mixture is applied to an aluminized Mylar underlay, this is an aluminum coated polyeater film available

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by .duPont. The mixture has a coating thickness of approx. 2 microns. A breakable particle migration layer Zinc oxide particles with an average size of less than 0.5 microns will be deposited on the free surface of the stabelite magenta binder applied, this zinc oxide layer has a thickness of about «0.5 microns.

The image plate is charged evenly electrostatically to a negative surface tension of approx. 250 volts and with the oa. 2150 Luxsec "exposed imagewise The latent image is by immersing the optical disk in a bath of Freon 113 solution, a fluorinated hydrocarbon, available from duPont, ca ₀ 1 to 2 seconds developed

This procedure results in a sharp positive image, which can be used on its support as a lithographic printing plate in the process according to Example III.

Although special substance proportions and amounts of substance have been mentioned in the above description of preferred exemplary embodiments of the invention, other substances and other process steps can also be provided which lead to similarly satisfactory results with different degrees of quality to achieve an improving or otherwise beneficial effect on the respective properties _e

Numerous modifications and other embodiments are possible the person skilled in the art after knowledge of the above description is possible; they are taken as a whole by the basic idea of the invention recorded, *

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Claims (1)

Claims Image plate for image generation by particle migration in a softenable layer, characterized in that a particulate migration material is in the softenable layer (13) from a mixture of light-sensitive and fusible light-neutral drawing particles (14, 15) is provided. Image plate according to Claim 1, characterized in that the mixture is dispersed in the softenable layer (13) is· Image plate according to Claim 1, characterized in that a breakable layer of photosensitive material is provided near the free surface of the softenable layer. 4e image plate according to one of claims 1 to 3 »characterized in that a transparent layer support (11) is provided ₀ 5. Image plate according to one of claims 1 to 4, characterized in that that the photosensitive character particles (14) consist of the X-form of metal-free phthalocyanines. Image plate according to one of Claims 1 to 5, characterized in that that the light-neutral and fusible character particles (15) consist of polystyrene resin. 7. Image plate according to one of Claims 1 to 5, characterized in that that the liohtneutral and fusible character particles (15) consist of vinylidene fluoride. 1098 10/2000 8β image plate according to one of claims 1 to 7, characterized in that that the base (11) is electrically insulating is ο 9 «. Image plate according to one of Claims 1 to 7, characterized in that that the base (11) is electrically conductive ο 10. Image plate according to claim 9, characterized in that the base (11) is an aluminum foil. 11. Image plate according to one of claims 1 to 10, characterized in that the light-neutral and fusible character particles are transparent _e 12. Image plate according to one of claims 1 to 11, characterized characterized in that the light-sensitive and the light-neutral and fusible character particles (14, 1.5) are fusible into one another. 13 x optical disc according to one of claims 1 to 12, characterized in that the photosensitive Zeichenteilohen (14) in a proportion of about 2 to about 30 weight _o ~ $ of the softenable layer (13) and the light neutral and fusible Zeiohenteilohen (15 ) with a proportion of approx. 5 to the above. 30% by weight of the softenable layer (13) are present, 14. Image plate according to one of claims 1 to 13, characterized in that that the strength of the expandable layer (13) between oa. 0.5 and 16 microns. .15. A method of image generation according to any one of the claims 1 to 14 formed image plate, daduroh ge « 109810/2000 2Ü41616 indicates that the surface of the image plate (10) is electrostatically charged and irradiated with an image-wise distributed light-shadow pattern of activating electromagnetic radiation, that an image development is carried out by softening the softenable layer (15) and that the light-neutral and fusible marker particles (15 ) are melted ₀ 16o method according to claim 15, characterized in that that the melting occurs after the image development by the action of heat. That the melt heating to a temperature between about 17 takes place · The method of claim 16, characterized ₀ 204 ⁰ C and 315 ° E. 18. The method according to claim 15, characterized in that the melting after the image development by exposure a vaporous or liquid solvent for the light-neutral and fusible cell particles (15) he follows· 19o image plate with an image generated according to one of claims 15 to 18, characterized by an image base (11) on which an image (25) is present without sensitive character particles (14) , which is formed by a melted mass of light-neutral and fusible character particles (15) is fixed and has a receptive ink surface · 20, copying process using an image plate according to claim 19 » characterized in that a lithographic printing plate is applied to the image (25) and the image colored in this way is browned in contact with a surface that is receptive to printing ink. 109810/2000 21o method according to claim 20, characterized in that the inking and the printing are repeated according to the number of copies to be made «, 10981 O / 20Ö0 Le first page