US3360367A - Copying of graphic images - Google Patents
Copying of graphic images Download PDFInfo
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- US3360367A US3360367A US536571A US53657166A US3360367A US 3360367 A US3360367 A US 3360367A US 536571 A US536571 A US 536571A US 53657166 A US53657166 A US 53657166A US 3360367 A US3360367 A US 3360367A
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- sheet
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- paper
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41M—PRINTING, DUPLICATING, MARKING, OR COPYING PROCESSES; COLOUR PRINTING
- B41M5/00—Duplicating or marking methods; Sheet materials for use therein
- B41M5/26—Thermography ; Marking by high energetic means, e.g. laser otherwise than by burning, and characterised by the material used
- B41M5/382—Contact thermal transfer or sublimation processes
- B41M5/38207—Contact thermal transfer or sublimation processes characterised by aspects not provided for in groups B41M5/385 - B41M5/395
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41M—PRINTING, DUPLICATING, MARKING, OR COPYING PROCESSES; COLOUR PRINTING
- B41M5/00—Duplicating or marking methods; Sheet materials for use therein
- B41M5/025—Duplicating or marking methods; Sheet materials for use therein by transferring ink from the master sheet
- B41M5/035—Duplicating or marking methods; Sheet materials for use therein by transferring ink from the master sheet by sublimation or volatilisation of pre-printed design, e.g. sublistatic
Definitions
- This invention relates to the copying of graphic originals. It has particular reference to the preparation of multiple copies on plain untreated paper, by a process involving the transfer of latent-image-forming material by a heat-pattern developed in a radiation-absorptive image on the original or on an imaged master sheet, for example on a printed master or on an intermediate master formed from the graphic original by a thermographic or transfer process or through the agency of actinic light.
- the invention more specifically relates to novel sheet materials useful in such process.
- the invention is useful in making'possible the rapid and economical direct duplication of printed, typewritten, handwritten or other graphic intelligence.
- the invention is useful in providing multiple copies of printed originals such as books, drawings, sketches, etc., which, because printed on heavy or stiff backings or in various colors, are difficult to copy by customary thermographic copying procedures and accordingly have required much more complicated and expensive photographic or like copyingprocesses.
- the invention permits the preparation of large numbers of copies at a rapid rate, on plain paper, and without the necessity of development with chemical solutions or vapors as required in photographic processes.
- Prior art copying procedures are known in which a latent electrostatic image of an original is first produced on a photoconductive sensitive plate, the image is developed with a thermoplastic ink powder, and the powder image is then transferred to a plain paper receptor and fixed by heating.
- Complicated and expensive machines .and apparatus are required in order to achieve the desired exposure and to convert the latent image into a visible copy.
- High voltages are required in electrostatically charging the sensitive plate, and are helpful in reducing darkening of the background in the finished copy, but involve danger and annoyance to personnel as well aS considerable expense. Block areas frequently reproduce only in outline.
- Another copying method which has been suggested for making multiple copies involves lightly coating the surface of the graphic original with an oily liquid which is then removed at image areas to an adjacent paper receptor sheet on irradiating the original with intense infrared radiation.
- the oily latent image produced on Ithe paper receptor is later made visible by much the same process used in the detection of finger-prints, i.e. by the 3,360,367 Patented Dec. 26, 1967v ICC application of colored very finely divided dusts or powders which cling selectively to the oily areas and which may then be fused in place.
- the powders have a tendency to be retainedby much of the background area, in part because of contact transfer of the oily fluid at these unheated areas.
- the supply of oil must be replenished for making each successive copy.
- the present process is applicable to the copying of any graphic original having visibly distinct image and background areas.
- a light-sensitive film is first exposed to light while in contact with the original, and the film is then heated in contact with a reactant-coated intermediate master sheet on which the image is thereby reproduced.
- the resulting master is then irradiated in contact with plain paper to form thereon a latent image which is promptly rendered permanently visible.
- the latter process is repeated to provide any desired number of copies.
- the process involves no treatment with liquids or vapors as is required of other photographic or like processes, but instead employs radiant or conducted energy, in the form of radiation or heat, in producing both the intermediate master and the final copies.
- FIGURES 1 and 2 illustrate in schematic cross-section the preparation of an intermediate master from a graphic original
- FIGURES 3 and 4 similarly illustrate the formation of a latent image and development of a visible image using an intermediate master prepared as in FIGURES 1 and 2;
- FIGURES 5 and 6 illustrate the preparation of a latent image using a different and unitary form of master
- FIGURE 7 illustrates a graphic original which serves also as a master.
- a light-sensitive transparent fihn product 10 consisting of a transparent film support 11 carrying a light-sensitive reactant coating 12 is placed upon the printed surface of a graphic original 13 consisting of a heavy white paper 14 printed with visible image areas 15, and the composite is irradiated with actinic light indicated by broken arrows 16. Irradiation is continued until the portions of the reactant layer 12 lying above the reective background areas of the original are substantially completely desensitized, the portions 22 above the light-absorptive printed areas 15 remaining at least partially sensitive.
- the film 10 is then removed and placed in contact with an intermediate master sheet 17 as in FIGURE 2.
- Sheet 17 consists of a paper base 18 coated on one surface with an image-forming co-reactant layer 19 and on the other with a hard and non-tacky transfer layer 20.
- Heat indicated by wavy arrows 21, is conducted to the composite and permits the transfer of residual reactant from the still sensitive image areas 22 of the layer 12 to corresponding areas 23 of co-reactant coating 19, where reaction to a visible and infra-reding 20 against a sheet of plain paper 24 and subjected to radiation rich in infra-red, indicated in FIGURE 3 by arrows 25.
- the heat-pattern developed in the infra-redabsorptive image areas 23 is conducted through the sheet 17 as indicated by wavy lines 26 and causes transfer of minute portions of layer 20 to the surface of paper 24 in a pattern corresponding to that of the intermediate image 23 and here represented as lightly dotted areas 27. Since the transferred material remains essentially invisible until development, it is appropriately designated as forming a latent image.
- the latent image is promptly developed into a permanent visible image in accordance with procedures indicated in FIGURE 4.
- the surface of the imaged sheet 24 is covered with a layer of colored thermoplastic developing powder 28 which adheres at the latent image areas but is removed from the background areas by simple shaking or blowing.
- Heat, represented by wavy arrows 29 is then applied-or may be generated in a radiationabsorptive powder by exposure to suitable radiationto fuse the thermoplastic powder or otherwise to provide a permanent visible image.
- the light-sensitive coating 12 of the sheet 10 of FIGURE 1 there may be employed any of a wide variety of sensitive reactant materials or combinations of materials which are normally capable of rapidly reacting, under the conditions provided, with the co-reactant of the coating 19 of the intermediate sheet 17 of FIGURE 2 to provide an infra-red-absorptive reaction product and which sensitive reactant materials at the same time are capable of being desensitized against such reaction by exposure to actinic radiation, i.e. to visible or ultraviolet light.
- the sensitive reactant materials are preferably releasably retained on the surface of a thin transparent polymeric supporting lm by means of a small proportion of polymeric or resinous binder.
- the mixture is conveniently applied from solution or suspension in a volatile liquid vehicle which is then removed by evaporation, the entire operation being conducted in the absence of any excessive amount of actinic radiation.
- the sensitive reactant material may alternatively be incorporated in a light-transmissive porous fibrous web in the substantial absence of added binder.
- the coreactant material of the image-forming coating 19 of intermediate master sheet 17 any material or combination of materials normally capable of rapidly reacting with the light-sensitive reactant material of coating 12 to provide visibly distinct and preferentially infra-red-absorptive image areas.
- the two-sheet composite, with coatings 12 and 19 in contiguity, provides in effect a form of heat-sensitive copy-sheet as used in well-known thermographic copying processes, which in this instance is also light-desensitizable.
- the functions of the sensitive sheet 10 and intermediate sheet 17 of FIGURES l and 2 are combined in the structures and process illustrated in FIGURES and 6.
- the unitary sheet 30 comprises a thin transparent supporting web 31 having a first coat 32 containing an image-forming co-reactant as in the coating 19 of FIGURE 2, and a second coat 33 containing the desensitizable reactant of coating 12 of FIGURE l as well as the transferable ingredient -of coating 20 of FIGURE 2.
- the sheet is first placed with its coated surface in contact with the printed surface of a graphic original 34 having light-absorptive inked image areas 35 on a reflective white paper background.
- the printed surface is irradiated, with actinic light 36 applied through the light-transmissive sheet 30 to an extent just sufficient to provide complete desensitization at background areas, the coating 33 retaining a diminished but still adequate degree of sensitivity or potential reactivity at image areas.
- the sheet 30 is then heated to cause reaction at the sensitive areas and form visible infra-red-absorptive image areas 37 as shown in FIGURE 6.
- Irradiation through the transparent web 31 of the sheet 30 with infra-red radiation 38 while the coated surface is in contact with plain paper 39 then produces on the latter a latent image 40 which is promptly developed with a heat-softenable colored developer powder and fixed by heating, as described in connection with FIGURE 4.
- the same infra-red-absorptive image may be produced in the sensitive image layer of the unitary sheet 30 by the thermographic copying process either by front-printing or lby back-printing.
- the former process brief exposure to intense infra-red radiation in place of the actinic radiation 36 provides a heat-pattern on the graphic original 34 and results in the formation, by chemical reaction, of image areas 37.
- the background areas may then be desensitized by exposing the sheet to actinic radiation.
- the sheet 41 0f FIGURE 7 includes a thin dense paperlike web 42 having on one surface a coating 43 of transferable latent-image-producing material as defined in connection with coating 2f) of FIGURE 2, and on the other surface a selectively radiation-absorptive image pattern in the form of printed or hand-written indicia 44.
- a product may be made by printing onto a pre-coated sheet or by coating a previously prepared graphic original.
- the coating 19 may for example be a photosensitive silver halide-gelatin emulsion layer which is exposed to a light-image and chemically developed and fixed to provide an infra-redabsorptive image pattern.
- the transfer layer is stable and inactive during handling, storage and shipping, yet is immediately and effectively fractionally transferred to form readily developable latent images when locally briefiy heated in contact with plain paper or other suitable collecting surfaces as herein described and illustrated.
- the melting point or melting range of the material may be determined, for the purposes lof this invention, by
- Non-crystalline on a glass microscope slide, covering the sample with a solidification, when it occurs, may be detected by attemptcover-glass, heating on a microscope having a hot stage ing to smear the droplets with a spatula.
- the solidiiied which is provided with temperature measuring means, droplets remain unchanged; liquid droplets -are altered in and observing the temperature at which the particles melt shape and will frequently rapidly crystallize when thus and fuse. manipulated.
- a preliminary test for supercooling is conveniently The application of the test procedures just described accomplished using the same sample as for the melting to typical candidate materials for ⁇ determining their pospoint test.
- a Leitz hot stage microscope having an elecsible utility in providing stable non-tacky latent-imagetrically heated stage which may be cooled by circulation producing copy-sheet masters will now be illustrated in of cold water is used for both determinations. After the terms of the tabulated results obtained from such tests.
- Acetamide 80-82 39 (15 sec) Backgrounding. Methyl Red. i60-178 x 0 Red stain. Adipic Acid 152-153 140 0 No image. o-Nitrobenzaldehyde 39-42 RT'- 10+ Unstable; bkgd. Carnauba Wax 90-100 x x No image. Carbowax 200- (liq.) x x Baekgrounding, Piccolite S-135- 118-132 x x Partialirnage;bkgd. OilinWax 90 x (i) X x.
- a somewhat more sensitive test for supercooling is Vconveniently made in conjunction with the -test for volatilization.
- a met-al base such as the metal plate of a Fisher-Johns melting point apparatus, is heated to the desired temperature, e.g. 150 C.
- a cover-glass is placed on thebase and a fewsmall particles of the material to betested are sprinkled on the glass.
- a second cover-glass is suspended over the sample parallel tothe lower glass and at a distance of approximately one-eighth inch.
- the upper glass may less accurately be held with handoperated clamp lor tweezers, or may be supported on parallel glass rods laid across opposite sides of the lower cover-glass, or for accurate positioning may be attached to a simple hinge mechanism having a micrometer adjustment.
- the appearance on the under surface of the upper cover-glass, as seen through the glass, of a visible haze or fog of droplets or particles of condensate within about one-half minute after rst placing the glass in position indicates adequate vaporizability.
- Santicizer 9 is a mixture of orthoand para-toluene sulfonamides melting at about C.
- the melt remains liquid when rst cooled to or somewhat below room temperature.
- the material vaporizes at C. to produce a visible haze in the fog test and the droplets on the glass plate remain liquid for at least 30 minutes at room temperature.
- This material provides a stable non-tacky thin coating on paper and is fractionally -transferred at heated areas t-o form latent image areas which are effectively developed with colored powders all as hereinbefore described, providing a large number of excellent copies.
- Aroclor 1268 is a solid chlorinated diphenyl having a nominal speciiic gravity of 1.646-1.653 and a vapor pressure of 760 mm. Hg at about 435 C. It meets the requirements of the fog test and the test -for'metastability at room temperature, and provides excellent copies.
- Benzotriazole melting at 97 C., is found to crystallize on cooling to 23 C. in the mass crystallization test, but when vapor transferred in the fog test the droplets remain liquid for at least l0 minutes.
- the material provide-s excellent copies by powder development of the latent image.v
- Triphenylphosphate (TPP) melts at well below 70 C. and as a transfer coating in the reproduction process here described is found to transfer at background as well as image areas, resulting in darkening or smudging of the background during image development.
- Stearic acid melts -at S11-57 C. and solidies within a few degrees of the melting temperature; and the condensed droplets obtained in the fog test are found to solidify immediately. No developable latent image is obtained with this material.
- Methyl red l (p-dimethylaminoazobenzene-o-carboxylic acid) forms a glass during cooling in the melting point test. It transfers in the fog test but solidiiies on transfer and does not produce a developable latent image.
- Ortho-nitrobenzaldehyde melts at about 40 C. and vaporizes so readily at low temperatures as to possess undesirable instability in the form of thin coatings. Any image formation is accompanied by heavy backgrounding.
- C-arnauba wax solidifies without visible crystallization during cooling under the microscope. It produces no visible condensatein the fog test and no developable latent image in the copy process here described.
- Carbowax 200 is a normally liquid Water-soluble waxy polyethylene glycol which transfer excessively at both image and background areas.
- Piccolyte S-135 neutral thermoplastic terpene resin melts at 11S-132 C. and solidifies without apparent crystallization on cooling. It produces no visible condensate in the fog test.
- One or two vague and indistinct powderdeveloped copies may be produced on plain paper by thermographic reproduction with a master sheet coated with this material, apparently due to adherent mass transfer of the resin, but the copies are heavily backgrounded and completely ineffective.
- the rst nine materials tabulated meet the requirements as to melting point, volatilizability or vaporizability, and ability to supercool to a fluid metastable liquid state, and are capable of forming stable coatings which can be fractionally transferred by localized brief heating in thermographic copying processes in the form of powder-developable latent images.
- Example I A transparent transfer sheet is first prepared by coating thin transparent Mylar polyester film with a solution of 0.2 part by weight of 4-methoxy-1-naphthol, 0.088 part of erythrosin and 10 parts of ethyl cellulose in 90 parts of methyl ethyl ketone, applied through a coating orifice of 3 mils (0.003 inch), and dried in total darkness.
- An intermediate master sheet is prepared by coating one surface of 25 lb. map overlay tracing paper with a ball-milled mixture of l parts of silver behenate, one part phthalazinone, 3 parts of poly-t-butylmethacrylate and 86 parts of acetone, applied at an orifice of 3 mils and dried.
- the reverse side of the paper is then coated with a 20% solution of Aroclor 1268 in acetone lightly applied as uniformly and rapidly as possible with a cotton swab, and the sheet is again dried.
- the dry coating has a weight of about 0.6-0.7 gram/ sq. ft.
- the dried Aroclor coated surface is found to be completely non-receptive of developing powder such as carbon black.
- the pink colored transparent transfer sheet is placed over a graphic original typewritten on white paper and with the coated surface of the transfer sheet in close uniform contact with the typewritten surface of the original.
- the composite is illuminated with intense visible light from a bank of tungsten filament lamps and through the transfer sheet for a time, typically within the approximate range of 15 to 30 seconds, just sufficient to cause essentially complete desensitization at areas of the transfer sheet corresponding to the background areas of the printed original.
- the thus reflex-exposed transfer sheet is next placed with the coated surface in contact with the silver soap coating of the intermediate master sheet and the composite is subjected to uniform elevated temperature, preferably under pressure contact with an infrared absorptive black paper carrier sheet which is then heated by being briefly exposed to intense radiation rich in infra-red, e.g. by means of commercial thermocopying equipment. Heat may alternatively be supplied by means of heated platens or rollers, or in other ways. A copy of the original typewritten image in the form of black letters on a white background is formed on the coated intermediate master sheet. The depleted transfer sheet is discarded.
- the master sheet is next placed with the coated reverse surface in contact with a sheet of plain untreated white paper and the composite is passed through the thermocopying machine, with brief intense irradiation of the imaged surface.
- the plain paper is removed and is lightly dusted with carbon black over the surface contacting the master sheet.
- the black powder is found to adhere well at areas corresponding to the image areas of the original, resulting in readable copy which however smudges badly in handling.
- Carbon black has a tendency to cling to untreated paper, and the background areas of the copy are found to be irregularly smudged and dirtied.
- Additional copies are prepared from the same master sheet in the same manner, a total of up to readable copies being easily obtained.
- Copies having much improved clarity of background are obtained by substituting for the carbon black a developer powder consisting of very fine substantially spherical pellets of colored thermoplastic resin.
- Phenolic, polyterpene, polyester, aryl sulfonamide, polyphenyl, and epoxy synthetic resins, as well as rosin and other natural gums and resins, are useful. They may be colored with various colored pigments; for example, resins pigmented with carbon black, Prussian blue, or toluidine red are useful for this purpose.
- Polyethylene micro-beads or pellets loaded with carbon black are particularly suitable. The pellets adhere well to the metastable liquid latent image areas but are easily and cornpletely removed from the background areas by simple shaking or snapping of the sheet or by means of an air blast.
- the copy is rendered permanent by brief heating, e.g. in an oven or, for infra-red-absorptive colors, by exposure to infra-red radiation at an intensity sufficient to fuse the thermoplastic resin to the paper surface.
- Example 2 A sheet of vellum, a semi-transparent thin dense paperlike product commonly used by draftsmen in making engineering drawings, is coated on the back surface with a thin layer, applied as uniformly as possible with a cotton swab, of a 20% solution of Santicizer 9 in acetone, and the sheet is well dried.
- the dry coating weight is about 0.6-0.7 gram/sq. ft.
- the coated sheet is non-tacky and can be handled, stacked or filed, and stored without blocking and without harm to contacting surfaces. It does not retain developer powders dusted over the coated surface.
- Pencil markings eg. in the form of an engineering drawing, are then inscribed on the face or marking surface of the vellum.
- the sheet is placed with its coated back surface against a sheet of plain paper and the printed front surface is 4briefly exposed to intense radiant energy in accordance with the thermographic copying process.
- the contacting surface of the up-ended plain paper is promptly dusted with a colored developer powder of pigmented hard thermoplastic epoxy resin sphericles. The powder adheres at the areas corresponding to the pencilled lines of the drawing but not at the background areas, producing a replica of the original which is then briefly heated to fuse the resin and fix the copy.
- Up to 50 or 100 or more additional copies may be prepared from the drawing in the same manner, either immediately or after prolonged intermediate storage of the drawing either in a flat tile or rolled up into a tight roll.
- the pencilled drawing may be altered or removed and replaced; accurate copies of the corrected or substituted drawing are then produced by the same procedure.
- the Santicizer 9 or other latent-image-producing material may be surface coated as described in the example, or may be incorporated in the paper in any desired manner, e.g. by application in molten form, or by impregnation from solution or dispersion, or during the forming of the paper, or by thermally induced transfer vfrom another coated or impregnated sheet.
- the coating weight of the Santicizer 9 or other latentimage-forming material may vary over a wide range. Too thick a coating may cause image blurring; excessively thin coatings may produce fewer than the desired number of copies.
- Effective transfer sheets have been produced with coatings of from 0.08 gram per sq. ft, obtained by swabbing lightly with a one percent solution of the sulfonarnide material, to as high as 1.36 g./sq. ft. obtained by application of the material in liquid molten form with a squeeze roll applicator.
- the incorporation of minor amounts of inert powders, together with small proportions of polymeric binders, makes practical the application of still heavier coatings of volatilizable transfer material as will subsequently be shown.
- a preferred range of coating weights is about one-half to about one gram per square foot of the transfer material in the absence of additives, or up to about one and one-half grams per square foot in conjunction with about one-third of that amount of added powder and binder.
- a graphic original such as an engineering drawing may itself be coated with the transfer material as in the foregoing example, or the coating may less desirably be supplied as a separate thin conformable coated or impregnated web which is placed in heat-conductive close contact with the back surface of the untreated original.
- Example 3 A thin uniform coating of Santicizer 9 is applied to thin dense smooth-surfaced paper by the method described in Example 2.
- a Verifax matrix paper having a light-sensitive coating of silver halide in gelatin and also containing dye-forming and developing ingredients, is placed over a graphic original and then exposed to light by reflex illumination.
- the exposed matrix is immersed in an activator solution which promotes developing, dye formation, and tanning or hardening of the gelatin at the exposed portions.
- the unexposed areas become chemically fogged and the dye is formed, but the gelatin remains unhardened.
- the gelatin-coated sheet while still damp is pressed against the uncoated surface of the paper carrying the coating of Santicizer 9 and the sheet then stripped away.
- the unhardened or unexposed areas of the gelatin layer split, leaving-residual colored infra-red-absorptive image areas corresponding to the colored image areas of the graphic original.
- the thus imaged master after drying if necessary, is placed with the Santicizer 9 coating against a sheet of plain paper and the imaged surface is briey exposed to in- 10 tense radiation rich in infra-red, forming a latent image on the paper.
- the surface carrying the latent image is dusted with pigmented thermoplastic resinous developer powder, producing a replica of the original which is then rendered smudge-resistant by heating.
- Example 4 A master sheet is prepared by coating a transparent thin Mylar oriented polyester lm with a thin uniform first layer of a ball-milled mixture of 40 parts by weight of light-sensitive indium oxide powder, 9 parts of Pliolite S-7 rubbery butadiene-styrene copolymer, 21 parts of toluene, and 30 parts of methyl ethyl ketone, drying applying a thin uniform coating of benzil in acetone, and again drying.
- the sheet is exposed to an intense projected light image, e.g. from a microfilm slide projector, through the transparent backing until thelight-struck areas of the indium oxide coating become selectively infra-red-absorptive.
- the sheet is then placed with its coated surface in contact with a sheet of plain paper and is briefly exposed to intense radiation rich in infra-red as for the thermographic copying process.
- a latent image is formed on the paper sheet and is promptly developed by dusting the sheet with developer powder and fixed by brief heating. A sharp clean copy is obtained.
- the process can be repeated using a different light-image.
- the master sheet is normally not 4receptive of developer powder and can be handled, shipped and stored without difficulty.
- the eutectic mixture of 82 parts benzil and 18 parts benzoin is also useful as a master sheet coating.
- Example 5 A suspension is prepared by ball milling together ten parts by weight of silver behenate, tive parts of phthalazinone, 3 parts of Parapol S-50 styreneisobutylene copolymer, and 85 parts of heptane. The mixture is coated on map overlay tracing paper using a coating knife at an orifice of 11/2 mils. The coating is dried.
- the reverse surface of the sheet is lightly swabbed with a 20% solution of Santicizer 9 in acetone, and dried.
- a graphic original in this case printed in black ink on thin white paper, is placed with the unprinted surface in contact with the dyed surface of the coated master sheet and the composite is briefly intensely irradiated as in thermographic back-printed.
- a blue-black infra-redabsorptive reproduction of the original printed image is produced on the master sheet.
- the copy is then irradiated for 45 seconds at 20,000 foot-candles with light from a SOO-watt incandescent-filament projection la-mp. No visible change occurs in the copy-sheet.
- the background areas are found to be stabilized against visible change on heatmg.
- the copy-sheet is next placed with its coated reverse surface against a sheet of plain paper, the colored image is selectively heated by brief exposure of the sheet t0 intense infra-red radiation, and the resulting metastable latent image formed on the paper is promptly developed with thermoplastic colored resinous developer powder and xed by heating. A large number of copies may thus be made.
- the copy-sheet may be stored with other papers for subsequent preparation of additional copies as needed, without deterioration of the copy-sheet or of papers placed in contact therewith.
- the substitution for the plain paper of a direct image offset lithographic paper plate permits the preparation of any desired number of additional copies by lithographic duplication procedures.
- a thermally softenable resinous organophilic or ink-receptive developer powder is used; the powdered mixture of sulfonamide-formaldehyde resin, phenolic resin, and pigment described in Example 1 is particularly useful for this purpose.
- lt adheres to the metastable liquid latent image, is fused to the plate and into a smooth surface by brief heating, and is then selectively wet by the oily lithographie ink. They hydrophilic background areas of the direct image plate are selectively wet by the aqueous fountain solution.
- the master sheet is rst heated at image areas to provide the radiation-absorptive image, and the background areas are then desensitized to prevent gradual spread of the image during continued subsequent irradiation and heating.
- the reverse procedure, of desensitizing the background areas by irradiation through the non-opaque background areas of an original followed by heating to develop the image areas, is equally useful.
- the Santicizer 9 or other latent-image-producing material may be incorporated directly in the image-forming layer, for example with the binder, reactant and dye of the surface coating in the foregoing example, to provide a master sheet from which reverse-reading developable latent images may be prepared by thermographic frontprinting procedures.
- Example 6 An intermediate master sheet is prepared by coating one surface of map overlay tracing paper with a silver dispersion as described in Example 1.
- the reverse surface of the paper is coated with a solution of 10 parts by weight of Santicizer 9 and 10 parts of methyl gallate in 80 parts of acetone.
- the sheet is dried after each coating.
- An image is formed in the silver coating using a pre-exposed transfer sheet and employing the procedure described in Example l.
- the sheet is placed with the coated reverse surface in contact with plain paper and subjected to brief intense irradiation, forming a latent image n the paper.
- the image is then made visible by dusting with a reactive developer powder, removing loose powder, and heating.
- the powder is white in color and is darkened only when heated in the presence of the methyl gallate. Any slight residue of the powder remaining on the background areas of the copy therefore remains unchanged, so that the background areas remain completely free of color.
- a preferred chemical developer powder useful in conjunction with the master sheet of this example consists of finely powdered silver behenate containing a small proportion of a toner, for example about l-% of phthalazinone.
- a toner for example about l-% of phthalazinone.
- Other fusible silver soaps and other image toners are also effective.
- the addition of small amounts of inelt powders such as silica powder is advantageous in preventing lumping of developer powders of this type.
- Example 7 A photoconductive copy-sheet having a coating of dyesensitized photoconductive zinc oxide in an insulating binder is coated on the reverse surface with a thin coating of benzoin, applied from solution in acetone, to form a transfer master sheet.
- the zinc oxide coating is electrostatically charged, exposed to a light-image, and developed with electrostatic developer powder to produce an infrared-absorptive image.
- the sheet is placed with its reverse surface in contact with plain paper and the imaged surface is exposed to brief intense irradiation to form a latent image on the paper which is then dusted with thermoplastic colored developer powder and fixed by heating.
- the steps of forming the latent image and developing the visible image are repeated to a total of up to at least about 100 copies of excellent detail and contrast.
- Example 8 Benzil in powder form is dusted over the back surface of a sheet of light weight bond paper printed on the front surface with graphic indicia in black radiation-absorptive ink.
- the powder is brushed uniformly over the paper surface with a short-bristled paintbrush and the excess removed by shaking.
- the sheet is placed with its coated surface in contact with a plain sheet of paper and the printed surface is briefly exposed to intense irradiation.
- the second sheet is removed and the contacted surface dusted with colored fusible developer powder. A copy of the original is obtained and is fixed by heating. A second copy is similarly obtained. Where additional copies are desired, application of the benzil must be repeated. The procedure is therefore particularly useful where but one or two copies are required.
- imaged coated master sheets having other light-sensitive coatings employing other means for developing the latent image.
- Imaged masters prepared on light-sensitive silver-containing coated sheet materials as used for photographic printing-out papers or for photographic films are particularly effective because of the excellent absorptivity of the silver-containing image for infra-red radiation.
- Photoconductive zinc oxide coatings on which the light-struck image areas may be made visible by electrolytic developing means are also particularly useful because of the high reectivity of the coated background. In all cases the image areas are selectively heated on irradiation to form on the plain paper receptor a metastably liquid, at least temporarily powder-retaining, latent image.
- Example 4 A mixture of benzil and benzoin has been mentioned in Example 4 as an effective master sheet coating; and mixtures of other fusible vaporizable solids which form metastable liquid condensates are also useful. Mixtures of one part of benzil with from about three to about six parts of Santicizer 9 have given particularly effective results.
- Other materials may be included in the transfer coating, the addition of inert powders such for example as silica powder being especially helpful in increasing the number of copies which may be obtained.
- Other useful inert powders include powdered glass or glass spheroids. With these materials may be incorporated small amounts of polymeric film-forming binders which aid in preventing loss of the coating by abrasion or aking while still permitting vapol'ization and offsetting of the vaporizable solid.
- Example 9 The following components in the indicated weight proportion are mixed together by milling in a ball mill.
- the mixture is coated on 12-lb. Jupiter paper at a coating weight after drying of two grams per sq. ft.
- a sheet of the coated paper is printed on the reverse surface with a typewritten legend, producing a master sheet as illustrated in FIGURE 7.
- Copies are made on plain white paper from the master sheet by irradiation, powder development, and heat fixing as described in the previous examples. A total of 250 complete and fully readable coples is produced.
- the copies are compared with those produced from masters having identical coatings except for the proportion of silica powder. Increasing the amount of silica powder to ten parts produces no observable difference; after 250 copies the images are fully developed and readable. At two parts of silica powder about 150 good copies are produced. A master sheet containing no silica powder produces only about 50 good copies; at 150 ⁇ copies the images are so faint and blurred as to be illegible.
- the amount of polymethyl meth'acrylate may be varied from as low as about two parts to as high as about ten parts without any significant loss of image at up to 200 copies; whereas within this range .and in absence of the silica powder only about 50 to 100 good copies are obtained.
- the particle size of the silica or other inert powder is not critical, equally favorable results being obtained with silica powders having nominal particle size of 2.9, 3.3, 7 and l1 microns.
- Example Paper is coated on one surface withA a mixture of two parts by weight of benzil, thirteen parts of Santicizer 9, four parts of Hysil 233 silica powder, and 81 parts of 2% ethyl cellulose in acetone, and dried.
- the sheet is then similarly coated on the other surface with a mixture of the following components Parts by weight Silver behenate:behenic acid 12.6 Phthalazinone 5.2 2,6-ditertiarybutyl-4-methy1phenol 2.2
- a transfer sheet as employed in Example 1 is exposed in contact with a printed original and is then heated in contact with the silver soap coating to produce thereon an infra-red-absorptive copy of the original.
- the resulting master sheet is then employed to produce up to 250 good copies of the original on white paper, using the procedures previously described.
- Copies made as herein described are characterized by wide latitude in reproduction of both narrow and wide print lines and other areas.
- letters typed on letterheads having wide inked borders or insignia are reproduced in full detail and without blurring of the typed message or hollowing or outlining of the wide areas.
- a master sheet including a thin dense paper-like carrier sheet having over one surface -a thin uniform transfer coat comprising from about one-tenth to about one and one-half grams/sq. ft. of hard non-tacky fusible solid material melting within the range of approximately 70 to 170 C. and vaporizable at 150 C. with formation of a fluid metastable liquid condensate which remains in liquid form for at least about one-half minute on cooling to room temperature, and over the other surface a layer comprising a first reactant for inter-reaction with a second reactant when locally applied to said other surface and inter-reactive therewith on briefly heating the thus treated sheet to about 150 C. to form a corresponding infra-red-absorptive and visibly distinct image on said other surface.
- a master sheet comprising a thin dense paper-like carrier sheet having uniformly distributed over one surface an image-forming silver soap reactant material and coextensively over the other surface a transfer coating comprising from about one-half to about one and onehalf grams/sq. ft. of hard non-tacky fusible solid material having a melting point between approximately 70 C. and 170 C. and Vaporizable at 150 C. with formation of a fluid metastable liquid condensate which remains in liquid form for at least about one-half minute on cooling to room temperature; said silver soap reactant material being inter-reactive with 4-methoxy-1-naphthol when locally applied to said one surface on heating the locally treated sheet to about C. with formation of an infra-red-absorptive reaction product.
- a master sheet including a thin dense paper-like carrier sheet, a heat-sensitive chemically reactive layer which changes visibly on brief heating to about 150 C. in the thermographic copying process and thereafter is strongly absorptive of infra-red, and a stable surface transfer layer comprising from about one-half to about one and one-half grams/sq. ft. of hard non-tacky fusible solid material melting within the range of approximately 70 to 170 C. and vaporizable at 150 C. with formation of a fluid metastable liquid condensate which remains in.
- liquid form for at least about one-half minute on cooling to room temperature.
- a master sheet including a thin dense paper-like carrier sheet, a heat-sensitive layer containing first and second chemical reactants which react together on heating said sheet to about 150 C. to form a visibly distinct and infra-red-absorptive reaction product, one of said reactants being further characterized as being rendered non-reactive with the Vother of said reactants on exposure to actinic radiation, and a stable surface transfer layer comprising from about one-tenth to about one and onehalf grams/sq. ft. of hard non-tacky fusible solid material melting within the range of approximately 70 to C. and vaporizable at 150 C. with formation of a fluid metastable liquid condensate which remains in liquid form for at least about one-half minute on cooling to room temperature.
- a master sheet adapted for use in transferring t0 a sheet of plain paper a latent image developable to a visible image by means of -a developer powder containing a first reactant, said master sheet comprising a thin ydense paper-like carrier and a thin stable coating thereon comprising a volatilizable second reactant and from about oneatenth to about one and one-half grams/sq. ft. of hard non-tacky fusible latent-image-producing solid material melting within the approximate range of 70 to 170 C. and vaporizable at 150 C.
- a master sheet comprising a thin dense paper-like backing member, an inner coating containing ⁇ a first reactant, and an outer coating containing a volatilizable second reactant, said first and second reactants being inter-reactive on briefiy heating said sheet to about 150 C. with formation of a visibly distinct and infra-red-absorptive reaction product, said second reactant being rendered incapable of reacting with said first reactant on exposure of said outer coating to actinic radiation, and said outer coating including from about one-tenth to about one and one-half grams/sq. ft. of hard non-tacky fusible latent-imageproducing solid material melting within the approximate range of 70 to 170 C. and vaporizable -at 150 C. with formation of a Huid metastable liquid condensate which remains in liquid form temperature.
- a master sheet including a thin dense paper-like carrier sheet having over one surface a thin uniform transfer coat consisting essentially of from about one-half to about one and one-half grams/sq. ft. of hard non-tacky fusible solid material melting within the range of approximately 70 to 170 C. and vaporizable at 150 C. with formation of a fluid metastable liquid condensate which remains in liquid form for at least about onehalf minute on cooling to room temperature, and, uniformly blended therewith and in minor proportion thereto, an inert powder and a polymeric binder.
- An imaged master suitable for making large numbers of powder-developable latent image copies on plain paper by a thermographic process involving brief exposure of the imaged surface to intense radiation with said master against said paper, comprising a thin dense paperlike carrier sheet having radiation-absorptive image areas and having over one surface a thin uniform transfer coat comprising from about one-half to about one and onehalf grams/sq. ft. of hard non-tacky fusible solid material melting within the range of approximately 70 to 170 C. and vaporizable at 150 C. with formation of a fluid metastable liquid condensate which remains in liquid form for at least about one-half minute on cooling to room temperature, and, uniformly blended therewith and in minor proportion thereto, an inert powder and a polymeric binder.
- a master sheet including a thin dense paper-like carrier sheet having over one surface a thin uniform transfer coat comprising from about one-half to about one and one-half grams/ sq. ft. of hard non-tacky fusible solid material melting within the range of approximately 70 to 170 C. and vaporizable at 150 C. with formation of a uid metastable liquid condensate which remains in liquid form for at least about one-half minute on cooling to room temperature, and, uniformly blended therewith and in minor proportion thereto, an inert powder and a polymeric binder; and said carrier sheet having over its other surface a photosensitive layer suitable for recording a light-image.
- a master sheet including a thin dense paper-like carrier sheet having over one surface .a thin uniform transfer coat comprising from about one-half to about one and one-half grams/ sq. ft. of hard non-tacky fusible solid material melting within the range of approximately 70 to 170 C. and vaporizable at 150 C. with formation of a fluid metastable liquid condensate which remains in liquid form for at least about one-half minute on cooling to room temperature, and, uniformly blended therewith and in minor proportion thereto, an inert powder and a polymeric binder; and said carrier sheet having over its other surface a light-sensitive silver salt coating suitable for recording a light-image.
- a master sheet including a thin dense paper-like carrier sheet having over one surface a thin uniform transfer coat comprising from about one-half to about one and one-half grams/ sq. ft. of hard non-tacky fusible solid material melting within the range of approximately to 170 C. and vaporizable at 150 C. with formation of a fluid metastable liquid condensate which remains in liquid form for at least about one-half minute on cooling to room temperature, and, uniformly blended therewith and in minor proportion thereto, an inert powder and a polymeric binder; and said carrier sheet having over its other surface a photoconductive layer suitable for recording a light-image.
- a master sheet including a thin dense paper-like carrier sheet having over one surface a thin uniform transfer coat comprising from about one-half to about one and one-half grams/sq. ft. of hard non-tacky fusible solid material melting lwithin the range of approximately 70 to 170 C. and vaporizable at 150 C.
- a uid metastable liquid condensate which remains in liquid form for at least about one-half minute on cooling to room temperature, and uniformly blended therewith and in minor proportion thereto, an inert powder and a polymeric binder; and said carrier sheet having over its other surface a layer comprising a first reactant for inter-reaction with a second reactant when locally applied to said other surface and inter-reactive therewith on briefly heating the thus treated sheet to about C. to form a corresponding infra-red-absorptive and visibly distinct image on said other surface.
Landscapes
- Physics & Mathematics (AREA)
- Optics & Photonics (AREA)
- Thermal Transfer Or Thermal Recording In General (AREA)
- Non-Silver Salt Photosensitive Materials And Non-Silver Salt Photography (AREA)
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US536571A US3360367A (en) | 1966-03-15 | 1966-03-15 | Copying of graphic images |
DE1967M0073166 DE1671632B2 (de) | 1966-03-15 | 1967-03-14 | Uebertragungsblatt |
FR98622A FR1514039A (fr) | 1966-03-15 | 1967-03-14 | Perfectionnements à la reproduction d'images graphiques |
GB02012/67A GB1184804A (en) | 1966-03-15 | 1967-03-14 | A Sheet Material Having on one side a Layer Containing at least one Heat-Transferable Component |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US536571A US3360367A (en) | 1966-03-15 | 1966-03-15 | Copying of graphic images |
Publications (1)
Publication Number | Publication Date |
---|---|
US3360367A true US3360367A (en) | 1967-12-26 |
Family
ID=24139055
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US536571A Expired - Lifetime US3360367A (en) | 1966-03-15 | 1966-03-15 | Copying of graphic images |
Country Status (4)
Country | Link |
---|---|
US (1) | US3360367A (fr) |
DE (1) | DE1671632B2 (fr) |
FR (1) | FR1514039A (fr) |
GB (1) | GB1184804A (fr) |
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3471309A (en) * | 1965-12-28 | 1969-10-07 | Ibm | Thermal copying process with lignin reaction in copy sheet |
US3473923A (en) * | 1965-04-14 | 1969-10-21 | Fuji Photo Film Co Ltd | Reproduction process including transfer and redevelopment of electrostatically formed images |
US3511650A (en) * | 1962-03-22 | 1970-05-12 | Minnesota Mining & Mfg | Electrophotographic imaging process |
US3515570A (en) * | 1965-12-20 | 1970-06-02 | Matsushita Electric Ind Co Ltd | Heat-sensitive sheet and method of thermographic reproduction using the same |
US3539342A (en) * | 1965-02-10 | 1970-11-10 | Toshihiko Nagai | Reproduction process |
US3617324A (en) * | 1968-10-17 | 1971-11-02 | Dick Co Ab | Method for forming a concealed image by sublimination |
US3649332A (en) * | 1969-10-24 | 1972-03-14 | Minnesota Mining & Mfg | Color printing |
US3655379A (en) * | 1969-10-29 | 1972-04-11 | Xerox Corp | Printing by vapor propulsion |
US3663225A (en) * | 1969-04-04 | 1972-05-16 | Itek Corp | Photographic reflex process |
US4755396A (en) * | 1984-12-10 | 1988-07-05 | Geisler Thomas C | Image receiving element for thermal printers |
US5576074A (en) * | 1995-08-23 | 1996-11-19 | Minnesota Mining And Manufacturing Company | Laser write process for making a conductive metal circuit |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2010015A (en) * | 1933-10-10 | 1935-08-06 | Plastergon Wall Board Company | Fire resisting article and method of making same |
US2699113A (en) * | 1950-08-08 | 1955-01-11 | Dick Co Ab | Method of manufacturing stencils |
US2791504A (en) * | 1951-08-20 | 1957-05-07 | Du Pont | Photopolymerizable elements |
-
1966
- 1966-03-15 US US536571A patent/US3360367A/en not_active Expired - Lifetime
-
1967
- 1967-03-14 GB GB02012/67A patent/GB1184804A/en not_active Expired
- 1967-03-14 DE DE1967M0073166 patent/DE1671632B2/de active Granted
- 1967-03-14 FR FR98622A patent/FR1514039A/fr not_active Expired
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2010015A (en) * | 1933-10-10 | 1935-08-06 | Plastergon Wall Board Company | Fire resisting article and method of making same |
US2699113A (en) * | 1950-08-08 | 1955-01-11 | Dick Co Ab | Method of manufacturing stencils |
US2791504A (en) * | 1951-08-20 | 1957-05-07 | Du Pont | Photopolymerizable elements |
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3511650A (en) * | 1962-03-22 | 1970-05-12 | Minnesota Mining & Mfg | Electrophotographic imaging process |
US3539342A (en) * | 1965-02-10 | 1970-11-10 | Toshihiko Nagai | Reproduction process |
US3473923A (en) * | 1965-04-14 | 1969-10-21 | Fuji Photo Film Co Ltd | Reproduction process including transfer and redevelopment of electrostatically formed images |
US3515570A (en) * | 1965-12-20 | 1970-06-02 | Matsushita Electric Ind Co Ltd | Heat-sensitive sheet and method of thermographic reproduction using the same |
US3471309A (en) * | 1965-12-28 | 1969-10-07 | Ibm | Thermal copying process with lignin reaction in copy sheet |
US3617324A (en) * | 1968-10-17 | 1971-11-02 | Dick Co Ab | Method for forming a concealed image by sublimination |
US3663225A (en) * | 1969-04-04 | 1972-05-16 | Itek Corp | Photographic reflex process |
US3649332A (en) * | 1969-10-24 | 1972-03-14 | Minnesota Mining & Mfg | Color printing |
US3655379A (en) * | 1969-10-29 | 1972-04-11 | Xerox Corp | Printing by vapor propulsion |
US4755396A (en) * | 1984-12-10 | 1988-07-05 | Geisler Thomas C | Image receiving element for thermal printers |
US5576074A (en) * | 1995-08-23 | 1996-11-19 | Minnesota Mining And Manufacturing Company | Laser write process for making a conductive metal circuit |
Also Published As
Publication number | Publication date |
---|---|
DE1671632A1 (de) | 1971-10-21 |
FR1514039A (fr) | 1968-02-16 |
GB1184804A (en) | 1970-03-18 |
DE1671632B2 (de) | 1976-05-26 |
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