US3093478A - Photographic reliefs made by means of transfer intermediaries which produce gas upon irradiation - Google Patents

Photographic reliefs made by means of transfer intermediaries which produce gas upon irradiation Download PDF

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US3093478A
US3093478A US156437A US15643761A US3093478A US 3093478 A US3093478 A US 3093478A US 156437 A US156437 A US 156437A US 15643761 A US15643761 A US 15643761A US 3093478 A US3093478 A US 3093478A
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receptor
transfer
relief
record medium
sheet
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US156437A
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Willard D Peterson
Robert W Fabian
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THOMAS J MORAN S SONS Inc
THOMAS J MORAN'S SONS Inc
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THOMAS J MORAN S SONS Inc
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Priority to US156437A priority patent/US3093478A/en
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    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03CPHOTOSENSITIVE MATERIALS FOR PHOTOGRAPHIC PURPOSES; PHOTOGRAPHIC PROCESSES, e.g. CINE, X-RAY, COLOUR, STEREO-PHOTOGRAPHIC PROCESSES; AUXILIARY PROCESSES IN PHOTOGRAPHY
    • G03C5/00Photographic processes or agents therefor; Regeneration of such processing agents
    • G03C5/18Diazo-type processes, e.g. thermal development, or agents therefor
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03CPHOTOSENSITIVE MATERIALS FOR PHOTOGRAPHIC PURPOSES; PHOTOGRAPHIC PROCESSES, e.g. CINE, X-RAY, COLOUR, STEREO-PHOTOGRAPHIC PROCESSES; AUXILIARY PROCESSES IN PHOTOGRAPHY
    • G03C5/00Photographic processes or agents therefor; Regeneration of such processing agents
    • G03C5/60Processes for obtaining vesicular images
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03FPHOTOMECHANICAL PRODUCTION OF TEXTURED OR PATTERNED SURFACES, e.g. FOR PRINTING, FOR PROCESSING OF SEMICONDUCTOR DEVICES; MATERIALS THEREFOR; ORIGINALS THEREFOR; APPARATUS SPECIALLY ADAPTED THEREFOR
    • G03F7/00Photomechanical, e.g. photolithographic, production of textured or patterned surfaces, e.g. printing surfaces; Materials therefor, e.g. comprising photoresists; Apparatus specially adapted therefor
    • G03F7/26Processing photosensitive materials; Apparatus therefor
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S521/00Synthetic resins or natural rubbers -- part of the class 520 series
    • Y10S521/915Utilizing electrical or wave energy during cell forming process

Definitions

  • a predetermined degree of pressure is then applied between the rigidly supported bottom platen 12 of the press and its top platen 11, as indicated by arrows p.
  • steam of a temperature of approximately 225 F. is supplied to the platens while the pressure is approximately 40 lb./square inch.
  • this pressure is gradually increased to about 42 lb., that is approximately l0 percent, while maintaining the temperature at about 225 F.
  • the pressure is then reduced approximately three quarters, to ⁇ about 10 lb./square inch, for a period of about 2O Seconds, the temperature being still maintained at about 225 F.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Decoration By Transfer Pictures (AREA)
  • Printing Methods (AREA)
  • Thermal Transfer Or Thermal Recording In General (AREA)
  • Printing Plates And Materials Therefor (AREA)
  • Manufacture Or Reproduction Of Printing Formes (AREA)

Description

June l1, 1963 W. D. PETERSON ETAL PHOTOGRAPHIC RELIEFS MADE BY MEANS OF TRANSFER INTERMEDIARIES WHICH PRODUCE GAS UPON Filed Dec. 1, 1961` IRRADIATION 2 Sheets-Sheet 1 June 11, 1963 w. D. PETERSON ETAL 3,093,478
PHOTOGRAPHIC RELIEFS MADE BY MEANS oF TRANSFER INTERMEDIARIES WHICH PRODUCE GAS UPON IRRADIATION Flled Dec. l, 1961 2 Sheets-Sheet 2 United States Patent O 3,093,478 PHOTOGRAPHIC RELIEFS MADE BY MEANS F TRANSFER INTERMEDIARIES WHICH PRO- DUCE GAS UPON IRRADIATION Willard D. Peterson, Whittier, Calif., and Robert W.
Fabian, Doylestown, Pa., assignors, by rnesne assignments, to Thomas d. Morans Sons, Inc., New Orleans, La., a corporation of Louisiana Filed Dec. 1, 1961, Ser. No. 156,437 Claims. (Cl. 96-35) The present invention relates to -a process of forming relief copies of records such as printed matter or pictorial representations by means of transfer intermediaries which produce gas upon irradiation, to material employed in such process, and to relief copies themselves.
It is -a principal object of the invention to provide photographic reproductions in the form of reliefs, according to techniques which are extremely simple and inexpensive and yet fully satisfactory not only for letter press printing on an industrial scale but Ialso for use in oces, libraries, drafting rooms and similar establishments where it is Vdesirable to copy record material with a minimum of effort with unskilled labor and in minimum time. Reliefs made according to the present invention can be used not only for letter press forms or conventional line or halftone cuts, but also for relief offset printing as well as for continuous gradation reliefs for various purposes. The field of application is however not limited to printing Teliefs but extends to the making of reliefs generally in- Jluding Braille records produced from flat originals and decorative reliefs.
Another object is to provide such .techniques which ernploy materials that are comparatively inexpensive, which stand up Well through reasonably rough routine handling, and produce exact and permanent relief copies.
Further objects are to provide reproduction techniques which are dry throughout and do not require chemical treatment or rinsing baths, the only production controls being applied to pressure and temperature conditions within fairly wide margins of tolerance and not of unvusual range and magnitude. For some purposes, positive and negative reliefs, both suitable for practical use including printing, can be obtained'at the same time.
It has been proposed to produce photographic reliefs with the aid of light sensitive substances which upon illumination dissociate with development of gas. These attempts met With only indiiferent practical success due to the fact that relief formation and surface texture as well as record pattern definition and contrast -could not be controlled nor perfected to a degree sufficient for the intended purposes. In accordance 4with the present invention these factors can be controlled and perfected due to the recognition of the possibilities offered by the use of intermediary transfer and receptor bodies which have certain predetermined, preferably fairly similar properties and particularly also due to the discovery of certain optimum control conditions during the relief formation. For example, it was found that a technique of this kind is advantageously based on conceiving a set of relief 1mparting [and relief receiving bodies (herein also referred to as transfer and receptor sheets or bodies) as a combination of correlated units, preferably with similar response to certain pressure and rigidity control factors, the latter being preferably a temperature adjustment applied to thermoplastic transfer and receptor bodies. i
In accordance with the invention, relief records are made `through the intermediary of transfer sheets of a plastic vehicle of controllable rigidity incorporating a sensitizer which is capable of liberating gas upon exposure to radiation, by exposing such a sheet in indurated condition to a radiation image thereby forming in the sheet a record ofthe image in terms of gas sources which are restrained lCe i from effectively expanding by the rigid condition of the vehicle, by contacting the record carrying sheet with a plastic receptor body of controllable rigidity, and by pressurably restraining the contacted record carrying transfer sheet and receptor body with both sheet and body in relaxed condition Iwhile expanding the gas within the exposed areas of the relaxed t-ransfer vehicle, causing the exposed areas of the sheet to penetrate transversely into the yielding body, forming two complemental reliefs. Upon separation of the transfer sheet lfrom the body, two records in terms of relief are available; for most purposes the relief of the receptor body will be utilized for printing or other .purposes such as Braille records, but in some instances the relief of the transfer sheet has a useful purpose for printing or otherwise.
In an important aspect of the invention, it was found that the loss of rigidity or softening of the transfer body should somewhat lag behind that of the relief receiving body during the relief forming period.
In a particularly important practical aspect of the invention, relief records are made through the intermediary of a at transfer sheet comprising an organic colloid vehicle, such as gelatin or glue, incorporating a sensitizer which is capable of liberating gas upon exposure to radiation, by exposing such ya sheet in indurated condition essentially at room temperature to a radiation image thereby forming in the sheet a record of the image in terms of gas sources which are restrained from effectively expanding by the rigidity of the vehicle, by contacting the record carrying transfer sheet at room temperature with a receptor body, the body being predominantly of thermoplastic cellulose which has a slight relaxation lead with rising temperature as compared t-o the transfer sheet, by applying 'to vsheetI and body a pressure of the order of magnitude of 40 lb. per square inch'while applying a ternperature of the order of magnitude of 225 F. to bring them into relaxed condition while expanding the gas within the exposed areas of the relaxed vehicle, which causes penetration of the exposed areas of the sheet transversely into the yielding body, by cooling and thus indurating sheet and body, land by separating the sheet from the body which now carry the image in terms of relief.
In another important aspect relief records are made by .-means of transfer and receptor bodies of the above characteristics by contacting the indurated transfer body which carries a record in terms of exposed sensitizer, with the receptor body, subjecting both to essentially constant pressure while in relaxed condition, and essentially simultaneously releasing the pressure and reindurating the bodies whereupon the bodies, each now carrying the record in terms of relief, can be separated.
In a further aspect the invention provides sets of sheet material 'for making relief records which comprise, as coordinated units, a transfer sheet -made of a thermoplastic vehicle of controllable rigidity, such as gelatin or glue of suitable types, Iand incorporating a sensitizer which is capable of liberating gas upon exposure to radiation, combined with a thermoplastic receptor body of controllable rigidity, 4the rigidity characteristics of transfer and receptor bodies being of the ysame general character within the temperature range utilized according to the invention.
In a particularly useful embodiment, the process according to the invention employs sets of sheet material which comprise as coordinated units a transfer sheet made of an organic colloid such as gelatin or glue which relaxes with rising temperatures and incorporates a sensitizer which is capable of liberating gas upon exposure to radiation, combined with a receptor body of thermoplastic cellulose acetate with ian admixture of a modifying thermoplastic resin, regulated to furnish with rising temperature a slight relaxation lag of the receptor body as compared to the relaxation of the transfer sheet undergoing an essentially similar temperature change.
Other objects, aspects and features will appear, in addition to those contained in the above statement of the nature and substance including some of the objects of the invention, from the herein presented outline of its theoretical :basis and its practical possibilities together with a description of typical embodiments illustrating its novel characteristics. These refer to drawings in which:
FIG. l is a flow diagram illustrating an embodiment of the process according to the invention;
FIG. 2 is a diagram illustrating the behaviour of sets of transfer and receptor bodies according to a practical embodiment of the invention;
FIG. 3 is a diagram of the temperature and pressure conditions during the process according to FIG. l; and
FIGS. 4 and 5 are a flow diagram and a temperature and pressure diagram corresponding to FIGS. l and 3, respectively, illustrating a second embodiment of the invention.
As indicated by the operational legends a to d which connect the step illustrating blocks I to VII of FIG. 1, the general procedure according to the invention is as follows. A rigid transfer sheet T is exposed to a radiation image defined by original 0. Gas sources s are formed in the transfer sheet defining therein a record corresponding to the image. The transfer sheet and a receptor body R are then contacted under pressure and relaxed, the gas expansion -within the transfer sheet and the relaxation of both bodies, T and R, causing relief formation of opposite sign in transfer sheet and receptor body respectively. Transfer sheet and receptor body are then again indurated and separated. Two relief records are thus obtained, the receptor body relief being in a material which can be selected as to suitability for a given purpose such as `a particular printing technique although usable, especially if permanently indurated in the manner to be described below. It will ybe understood that the relief or reliefs may be used for other than printing purposes, such as Braille records or ornamentation.
`As indicated above, the materials for carrying out the process according to the invention combine as coordinated units, each set including a transfer body and a receptor body. These are shown separately in blocks, I, I'II and VII respectively of FIG. l, whereas blocks IV to VI show them in contact before, during and after relief formation. In accordance with the invention, the components have the following general characteristics.
The transfer sheet has a base or support S which can be of any suitable fairly rigid material and carries the transfer body proper T which comprises a vehicle v with sensitizer molecules m incorporated therein.
The vehicle for sensitizer substances of the type to be described in detail below, consists of suitable thermoplastic material, in the present preferred embodiment gelatin having the rigidity-temperature characteristic indicated at V of FIG. 2. This characteristic is reversible up to a critical temperature region tr, beyond which the gelatin becomes irreversibly hardened. This region is somewhat above 200, as indicated in FIG. 2. While this irreversible hardening is not essential in many practical embodiments including that described hereinbelow, it becomes important if one intends to utilize the relief formed in the transfer gelatin.
The etlicacy of the transfer body T depends primarily on the permeability of the vehicle for the -gas formed therein, and on its rigidity. The permeability of the vehicle is instrumental in deter-mining the character of the record formed therein in terms of gas sources or units. The rigidity of the vehicle controls the relief forming expansion of gas therein as well as the reaction to such relief formation of the receptor body in pressurable contact therewith. Permeability and rigidity are at least to some extent interdependent so that compromises may have to be accepted in order to obtain optimum utility; certain discoveries according to the invention tend towards this optimum of utility as will appear hercnbelow.
The vehicle permeability has two practical aspects, namely the internal permeability and the escape permeability both of which affect the efliciency as well as quality of record and relief formation.
The optimum internal permeability characteristic depends a good deal on the distribution of sensitive material, herein shortly referred to as sensitizer, and this distribution again depends largely on the manner of incorporating the sensitizer.
Generally speaking the radiation sensitive molecules are incorporated by way of solution as well as dispersion and physical agglomeration, the rst within the liquid component of the vehicle for example the water or gelatin, and the latter two deposited by precipitation on the walls or within the interstices of the vehicle. Since the relief forming expansion of gas bubbles can only take place if a true gas is present, individual molecular gas sources must be permitted to combine to form gas units which for present purposes can be considered as the smallest possible bodies susceptibe to expansion upon heating, in the manner of the true gas. This unit formation depends on the internal permeability permitting more or less coalescence of gas sources.
The escape permeability is of the general nature of the internal permeability but has a somewhat different elcct because it controls the escape of gas from the vehicle rather than the bubble formation. While the internal permeability controls mainly record definition and contrast through its effect on bubble size, number and distribution, the escape permeability effects the degree of relief formation by controlling, prior to contact with the receptor, the retention of gas within the vehicle.
The rigidity of the vehicle should be fairly high during exposure and transfer into contact with the receptor, in order to prevent bubble expansion so that a flat surface is preserved up to the contacting with the receptor body. The rigidity is then relaxed to permit expansion of the gas bubbles and relief formation. During this period, that is during contact of relief former and receptor, the rigidity can be more relaxed in the environment provided according to the present invention as compared to free expansion, since the expansion is counteracted by the contacting receptor body which is then in pressurable contact with the transfer sheet or relief forming body. Absence of restrictions on rigidity as by free relief formation, or relief formation against more or less liquid receptors, promote poor definition and other defects of the relief record in either transfer or receptor body, or both.
The sensitizing substance must be capable of solution or dispersion within the vehicle, sufficiently fine for purposes of the required definition as further controlled by the above-discussed permeability and rigidity character istics of the vehicle. The gas formed upon decomposition of the sensitizer must be essentially inert relatively to the vehicle entrapping it. Compounds of the diazo type which upon irradiation liberate nitrogen were found to be especially suitable, but other compounds for examplle of the type which liberate carbon oxides can be use The receptor body can be selected independently of permeability considerations but its rigidity properties are quite important with a view to optimum relief formation by interpenetration of the portions raised from the transfer body and impressed into the receptor body, transversely of both bodies. It was found that roughly speaking the rigidity characteristics of the two bodies should `be congruous or analogous so far as possible in view of their somewhat different function, namely radiationresponsive record formation and gas bubble expansion in the one case, and expansion restraint and relief reception in the other. However, it was further found in accordance with an important practical aspect of the invention, that relief quality is promoted if the receptor body has a certain relaxation lag, that is, if it remains somewhat softer than the transfer sheet with relaxation of the unit as a whole, as indicated at R of FIG. 2.
According to a further important aspect of the invention, the rigidity-pressure relation during the contact period, and the duration of the latter itself are fairly important. As will be discussed in detail with reference to FIG. 3, the pressure is in an especially successful embodiment slightly raised during contact and the application of heat, and reduced shortly before the system is again cooled and the bodies finally indurated.
Materials especially suitable in accordance with the above principles will now be discussed, with several specic examples incorporating such materials.
As mentioned above, gelatin was found to be very Well suited as a material for the vehicle of the transfer sheet, although substances of similar thermoplastic characteristics can be used. Specific examples will be given below, for gelatin and glue.
Among the sensitizing substances which liberate nitrogen upon irradiation, para-diazo dimethyl aniline zinc chloride was found to be especially valuable, but the following substances were also found to be useable.
p-Diazo diphenylamine sulfate, p-diazo diethylaniline zinc chloride, p-diazo ethyl hydroxyethylaniline zinc chloride, p-diazo ethyl methyl aniline zinc chloride, pdiazo diethyl methyl aniline zinc chloride, p-diazo ethyl hydroxyethylaniline zinc chloride, l-diazo-2 oxy naphthalene-4 sulfonate, p-diethyl amino benzene diazonium chloride ZnClz, 4-benzoylamine-2-5-diethoxy benzene diazonium chloride, p-chlorobenzene-sulfonate of 4-diazo'- l-cyclohexylaniline, p-chlorobenzene-sulfonate Aof 4-diazo- Z-methoxy-l-cyclo-hexylamino benzene, tin chloride double salt of 4-N-methyl-cycloheXylamino-benzene diazonium chloride, p-acetamino benzene diazonium chloride, 4-dimethylamino benzene diazonium chloride, 3-methyl 4-diethylamino benzene `diazonium chloride, 4- morpholino benzene diazonium chloride, 4-piperidyl 2-5- diethoxy benzene diazonium chloride, l-dimethyl amino naphthalene-4 diazonium chloride, 4-pheny1 amino diazo benzene diazonium chloride.
Substances which liberate carbon oxides upon irradiation and which are useful for purposes of the invention are for example iron salts in conjunction with organic acids such as ferric ammonium citrate and oxalic acid.
The sensitizing compound `can be dissolved and in that state mixed with a solution of the gelatin, and the mixture dried in the form of a film applied to a support. Up to certain concentrations which depend on the particular gelatin, such vehicles contain the sensitizer most likely dissolved in the gelatin Iwater. Above such concentrations the sensitizer is probably also dispersed in precipitated form, as discussed above With reference to the vehicle structure.
The support can be of any suitable material, which will withstand the slight stress applied thereto during contact with the receptor body, and the operational temperatures required. Glass, acetate film, metal, and similar substances are satisfactory.
The material -for the receptor body has to be selected in accordance with the above outlined principles, namely essential similiarity of its rigidity-temperature function to that of the transfer sheet and, preferably, incorporation of the above mentioned slightly different rigidity response to temperature change. In addition the receptor body material must have characteristics of mechanical strength, elasticity and surface texture which enhance its use, such as for a printing plate, without any further treatment after its separation from the transfer body.
Among the materials available for that purpose, thermoplastics such a scellulose acetate were found to be particularly suitable. Admixture of adjusting, such as other thermoplastic substances is often expedient for the purpose of coordinating the rigidity characteristics of the receptor body to those of the transfer sheet.
The following examples are characteristics of the above described materials.
Example I Transfer sheen-100 g. of high grade unhardened dry gelatin such as sold under the trade designation Kodak Peabody Gelation, 250 Bloom, prepared by alkaline pretreatment, is soaked for two hours in 1900 ml. distilled water of 30 C. The solution is then heated to 40 C. under constant stirring, and filtered. For the purpose of establishing a pH of about 3.0, 8 g. critric acid CP. is added. Thereupon is added l0 g. of the sensitizing substance sold under the trade designation Edwal Comfpound #8, which is a z-inc salt of para diazo dimethylaniline. This is then diluted to make 2000 ml. The resultant emulsion is maintained at 40 while being coated by conventional means on plass plates or cellulose film of the types use Ifor purposes of commercial photography. The dry thickness of the emulsion is about l to 4 mls, depending upon the desired height of relief. In orde-r to establish the thermoplasticity of the transfer bodies according to the present invention, the colloid sheet is dried and stored under controlled humidity conditions. Humidities of 4from 2O percent to 55 percent found to be workable for the herein described gelatin transfer body; a value of 30 percent was found to be satisfactory under average ambient conditions. It will be understood that optimum thermoplasticity can be obtained by mutually adjusting the above mentioned variables, namely pretreatment, Bloom, hardness, pH, moisture contents as determined by storage conditions.
Recepzor body:- parts by weight of the cellulose aceto-butyrate sold by Eastmen Chemical Products, Inc., of Kingsport, Tenn. under the trade designation Tonite Il are mixed with 15 parts of the thermoplastic phenol formaldehyde resin sold by the Valid Corp. of New Orleans, La., under the Itrade designation Valite. It is understood that Valite is obtained by the process described in United States Patent 2,394,000. The mixture is by conventional method formed into sheets approximately 50 to 70 mils thick, care being taken to obtain a smooth surface for contact with the transfer sheet. The rigidity of this receptor material can be adjusted to conform to that of the transfer body in accordance with the above outlined principles, by slightly changing the basic proportion. The usual shop experiment with each new bath of transfer and receptor materials units will determine the optimum composition of the set ifor a given purpose.
Example Il Example III Transfer sheen-Glue available under the trade designation Light Colored Hide Glue, of gram strength 252, viscosity 80, and pH 5.75 of a 12.5 percent solution is dissolved to form a 12.5 percent solution. To this solution 14 g. citric acid per 100 g. of glue are added .to assure stabil-ity. This glue solution is combined with sensitizing substance, coated, and dryed as above described with reference to the gelatin transfer body of Example I.
Receptor body:-Either one of the receptor bodies of Examples I or II can be used with glue transfer sheets.
Two specific embodiments of the relief forming technique according to the present invention will now be described.
In FIG. 1, block I indicates a transfer sheet or body of the type described above as Example I, namely a gelatin vehicle carrying a diazo sensitizer. The support S is for example a sheet of glass. Block II indicates an original record O such as a halftone diapositive, wherein the opaque portions o indicate the dark dots and the portions q the transparent interstices. In this particular embodiment half-tone diapositives made with `a 65 line screen are quite satisfactory giving a good relief about `3 mls high. Block III shows a receptor body R, compounded and prepared in accordance with Example I.
In order to 'obtain a relief defining record in the transfer sheet T, it is exposed in contact with the original O as indicated in block IV by light rays L. A gaseous discharge lamp of the BH6 air-cooled type was found satisfactory for contact printing of the transfer sheet, for about three minutes at a dist-ance of eighteen inches from the lamp within a conventional aluminum reflector. The exposure takes place preferably at room temperature, provisions Ibeing taken if necessary, to avoid appreciable heating of the transfer sheet. I-t should be noted in this context that the diazo compound in the present embodi ment is mainly sensitive in the region from 3500 to 4500 A., which includes the maximum emission range of the BH6 lamp. This combination of exposure light and sensitizer has the considerable advantage that such a transfer sheet is practically insensitive to ordinary daylight, which permits particularly easy handling. As indicated at s, the irradiated molecules form gas sources in a pattern reproducing that of the original O. The vehicle v being in indurated condition, the gas sources s are able to form gas units capable of later expanding as a true gas, but as yet prevented from doing so by the condition of Ithe vehicle.
It will be evident that the exact exposure time depends a good deal on the character of the original and the transfer sheet batch in question, so that it is desirable to perform the usual shop experiment for each batch of emulsion. A good indicator of complete exposure at a certain distance and light intensity' is the disappearance of the yellowish cast of the diazo rsensitizer in the transfer sheet vehicle.
Regarding exposure time it should be noted that the height of relief above the original base line on the transfer body increases with exposure time up to 4a cert-ain maximum beyond which all sensitizer is exhausted. It depends a good deal upon conditions Iat hand, for example requirements of record definition and height of relief, whether or not the transfer sheet should be fully exposed and also whether or not the yfull potentiality of relief formation by way of bubble expansion should be utilized; excessive bubble expansion might lead -to loss of .denition, so that height of relief and definition will have to be `balanced for any particular job.
The next step is the contacting of transfer sheet and receptor body preparatory to relief formation in the vehicle of the transfer sheet and in the receptor body. The transfer sheet T on its support S and the receptor body R, both still at room temperature and hence in indurated condition, and both essentially fiat are superimposed and contacted with their flat surfaces Ias indicated in block V. These are thus contacted in a transfer press which is schematically indicated as two platens 11 and 12, `both hollow and connected t a system for alternately supplying steam of controllable temperature and cold water. In block V these provisions Iare schematically indicated as steam and water supplies 14, 15, respectively, with cocks Ior valves 16, 17 rfor controlling the steam and water supply. Flexible connections 18, 19 lead from the valves to the platens. A predetermined degree of pressure is then applied between the rigidly supported bottom platen 12 of the press and its top platen 11, as indicated by arrows p. At the same time, steam of a temperature of approximately 225 F. is supplied to the platens while the pressure is approximately 40 lb./square inch. For `about 21/2 minutes this pressure is gradually increased to about 42 lb., that is approximately l0 percent, while maintaining the temperature at about 225 F. For about 20 to 30 seconds the pressure is then reduced approximately three quarters, to `about 10 lb./square inch, for a period of about 2O Seconds, the temperature being still maintained at about 225 F. Thereafter, that is after approximately 3 minutes from the beginning of the cycle, the steam supply is disconnected and cold water injected in the platens so that the temperature decreases rapidly. The rigidity-temperature relations of transfer sheet and receptor -body respectively in this embodiment are those illustrated in FIG. 2, and the entire cycle is schematically indicated in FIG. 3 which needs no further explanation in view of the above detailed description of the cycle.
Block VI of FIG. 1 indicates how the relief formation takes place, namely by expansion of the gas units into gas bubbles b which transversely expand the vehicle of the transfer sheet T into` the receptor body R upon relaxation of both bodies according to an essentially' analogous characteristic, preferably with the above discussed lag of the receptor body.
After about 1 minute, that is after about 4 minutes constituting a complete cycle, the platens are separated `and transfer sheet and receptor body removed. They can now -be separated and carry the record of original O in terms of negative and positive reliefs respectively as indicated at VII. The gelatin transfer sheet T and the receptor body R are again indurated, due to their having been cooled after the increase t0 the softening temperature. The gelatin relief can be irreversibly hardened by further heating, as described with reference to FIG. 2.
Instead of applying the transfer pressure by way of continuous adjustment as above described, it can be preset by mechanical means directly at the combined transfer `and receptor bodies. A transfer technique of such type which is sufficiently exact for many purposes, will now be described with reference to FIGS. 4 and 5.
Transfer Iand receptor bodies may be of any of the above described types, but it is assumed for purposes of the following description that the same material is used as in the technique according to FIGS. 1 and 3, so that blocks I to IV of FIG. l apply also to this technique. The flow diagram of FIG. 4 therefore begins with step b1 which varies from step b of FIG. l in that pressure is not yet applied to the sandwich consisting of transfer and receptor bodies upon putting it on the lower platen 12 of a press of the above described type, supplied with steam of approximately 225 F. As indicated at Va, bearers or spacers 21, 22 are placed on the platen 12, which bearers are somewhat lower than the sandwich of receptor and transfer sheet. A difference in height of about .O02 inch was found to be satisfactory for the material described above with reference to FIGS. 1 to 3. The platens can be supplied with steam when receiving the sandwich, so that the transfer land receptor bodies will begin to heat up at that time.
As indicated at b2 and Vb, the upper platen 11 is then lowered until it rests on the bearers 21, 22, applying to the sandwich a pressure which is believed to decrease, so Ifar las it has been possible to determine, from about 40 lb./per square inch ywhen the upper platen first contacts the sandwich in 4comparatively cool condition, to about 15 pounds when resting on the bearers with the transfer and receptor bodies in hot, relaxed condition.
Depending upon the dimensions and material of receptor 4and transfer bodies, values of yfrom 1.5 to 4.5 mils lare optimum for the height difference between bearers and sandwich. It will be understood that the customary shop tests have to tbe taken for any new batch of transfer material, since in -view of the nature of the plastic materials involved, and of the many controlling factors which come into play, exact predictions as to these dimensions cannot always be made.
The sandwich is kept under pressure for approximately two 4minutes from the lowering rof the upper platen. As indicated in block Vla, relief lformation now takes Place in the manner described above with reference to block VI of FIG. 1.
The press is then opened sutliciently to permit insertion of additional bearers or shims 23 or 24, as indicated at Vlb. This shim is somewhat thicker than the initial height difference between sandwich and bearers 21, 22. The platens are now again closed and, being separated lby bearers 21, 22, 23, 24, leave a slight gap between the sandwich and the upper platen. At the same time the steam has been turned `olf and cooling Water or oil admitted Ito the press, which fairly rapidly cools olf transfer and receptor bodies, the former by way of the gap between its support S and the upper platen 11. It is not absolutely necessary to lower the upper platen again and in many instances the cooling action of the ambient air and the lower platen 12 will be suflicient for reindurating the bodies within a comparatively short time.
Receptor and transfer bodies can now be separated as discussed above with the reference to block VII of FIG. 1.
The above technique is illustrated in FIG. which is quite similar to FIG. 3 and needs no further explanation in View of the above description. It will be noted that the expansion begins when relaxation conditions are fully reached and the pressure is 'approximately stabilized, which condition is reached after about one minute from the beginning of the transfer process.
Generally speaking, the relief height is mainly dependent upon the final pressure on the sandwich, at the transition point from relaxed to reindurated condition. vIt will be noted 4that this pressure is approximately 10 to 20 lbs. in both embodiments above described.
It should be understood that the present disclosure is for the purpose of illustration only and that this invention includes all modifications and equivalents which fall within the scope of the appended claims.
This application is a continuation-impart of the application filed September 10, 1952, and now abandoned, Serial No. 308,898.
What is claimed is:
1. A method of producing a relief irnage comprising dispersing a matrix material selected from the group consisting `of 4gelatin and glue in lwater, dissolving in the 'water of this dispersion a sensitizer capable of liberating gas upon exposure to radiation, applying the thus sensitized dispersion to a support, drying the sensitized dispersion to an induarted rigid photo-sensitive record mediurn, exposing said medium to light so as to form iu the sheet a record of the image in terms of gas sources which are restrained from elfectively expanding by the said rigid condition of said record medium, contacting the record medium with a thermoplastic receptor sheet comprising a thermoplastic cellulose ester which 4becomes softened under conditions of temperature and pressure sub-stantially the same as but `somewhat lower than does said record medium pressurably restraining said record medium and said receptor in contact between rigid platens, heating the resulting sandwich to soften the said record medium and said thermoplastic receptor sheet while expanding the tgas within the exposed areas of the said record medium to develop a relief image in said record medium and impress a complementary relief image in said thermoplastic receptor sheet, and cooling the sandwich to indurate the respective layers, whereupon they can 'be separated, each carrying said images in terms of relief.
2. A method as set forth in claim 1 iu which the thermoplastic receptor sheet comprises cellulose acetate.
3. A method `as set forth in claim 1 fin which the thermoplastic receptor sheet comprises cellulose acetate butyrate.
4. A method yas set forth in claim 1 wherein the therinoplastic receptor sheet comprises a mixture of cellulose acetate butyrate with a phenol formaldehyde resin.
5. A method as set forth in claim 1 in which the thermoplastic receptor sheet comprises a mixture of about parts `by weight cellulose Kacetate butyrate and about 15 parts by weight thermoplastic phenol formaldehyde resin.
6. A method as set forth in claim 1 4in which the thermcplastic receptor sheet comprises a mixture of cellulose acetate butyrate and methyl phthalyl ethyl glycolla-te.
7. A method as set forth in claim 1 in Iwhich the thermoplastic receptor sheet comprises la butyrlate mixture of parts by weight cellulose acetate butyrate and 10l parts by `weight methyl phthalyl ethyl glycollate.
8. A method as set forth in claim 1 wherein said receptor sheet is always, at any given temperature, softer than said record medi-urn.
9. A method as set forth in claim 1 wherein said rigid platens are movable with respect to each other.
10. A method as set forth in claim 9 wherein the pressure applied by said rigid platens is `gradually raised during the ksoftening of said sandwich.
1l. A method yas set forth in claim l0 lwherein -said gradual pressure raising is carried to approximately 10% above the initial pressure.
l2. A method las set fort-h in claim 9 including lowering the pressure during the concluding part of the period of contact between said record medium and said receptor sheet.
13. A method as .set forth in claim. 1 wherein said matrix material comprises gelatin and said thermoplastic receptor sheet comprises cellulose acetate, the pressure applied between said rigid platens being about 20 to about 60 pounds per square inch, and about 10 pounds per square inch during a short concluding period during the period of contact between said receptor sheet and said record medium.
14. A method las set forth in claim 1 in -which said sandwich is heated to a temperature of about 200| to 250 E. for softening the record medium and the thermoplastic cellulose ester.
15. A method as set forth in claim 14 in which said sandwich is heated to about 225 F. for approximately two to three minutes while the pressure applied thereto is increased about 10%, then the pressure is reduced to about 10 pounds per square inch for about ten to thirty seconds while the temperature is maintained at about 225 F., and then the sandwich is cooled to room temperature while releasing the pressure applied thereto.
References Cited in the file of this patent UNITED STATES PATENTS 1,919,194 Bennett July 25, 1933 1,942,872 Murray Jan. 9, 1934 1,952,787 Bennett Mar. Z7, 1934 1,954,325 Martinez Apr. 10, 1934 1,990,925 Bennett Feb. 12, 1935 2,543,181 Land Feb. 27, `1951 2,600,996 Land June 17, 1952 2,695,846 Mally Nov. 30, 1954 2,703,756 Herrick et al Mar. 8, 1955 FOREIGN PATENTS 399,269 Great Britain Oct. 5, 1933 645,825 Great Britain Nov. 8, 1950

Claims (1)

1. A METHOD OF PRODUCING A RELIEF IMAGE COMPRISING DISPERSING A MATRIX MATERIAL SELECTED FROM THE GROUP CONSISTING OF GELATIN AND GLUE IN WATER, DISSOLVING IN THE WATER OF THIS DISPERSION A SENSITIZER CAPABLE OF LIBERATING GAS UPON EXPOSURE TO RADIATION, APPLYING THE THUS SENSIPERSION TO AN INDUARTED RIGID PHOTO-SENSITIVE RECORD MEDIUM, EXPOSING SAID MEDIUM TO LIGHT SO AS TO FORM IN THE SHEET A RECORD OF THE IMAGE IN TERMS OF GAS SOURCES WHICH ARE RESTRAINED FROM EFFECTIVELY EXPANDING BY THE SAID RIGID CONDITION OF SAIID RECORD MEDIUM, CONTACTING THE RECORD MEDIUM WITH A THERMOPLASTIC RECEPTOR SHEET COMPRISING A THERMOPLASTIC CELLULOSE ESTER WHICH BECOMES SOFTENED UNDER CONDITIONS OF TEMPERATURE AND PRESSURE SUBSTANTIALLY THE SAME AS BUT SOMEWHAT LOWER THAN DOES SAID RECORD MEDIUM PRESSUURABLY RESTRAINING SAID RECORD MEDIUM AND SAID RECEPTOR IN CONTACT BETWEEN RIGID PLATENS, HEATING THE RESULTING SANDWICH TO SOFTEN THE SAID RECORD MEDIUM AND SAID THERMOPLASTIC RECEPTOR SHEET WHILE ESPANDING THE GAS WITHIN THE EXPOSED AREAS OF THE SAID RECORD MEDIUM TO DEVELOP A RELIEF IMAGE IN SAID RECORD MEDIUM AND IMPRESS A COMPLEMENTARY RELIEF IMAGE IN SAID THERMOPLASTIC RECEPTOR SHEET, AND COOLING THE SAND WICH TO INDURATE THE RESPECTIVE LAYERS, WHEREUPON THEY CAN BE SEPARATED, EACH CARRYING SAID IMAGES IN TERMS OF RELIEF.
US156437A 1955-11-09 1961-12-01 Photographic reliefs made by means of transfer intermediaries which produce gas upon irradiation Expired - Lifetime US3093478A (en)

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GB28911/55A GB814299A (en) 1955-11-09 1955-10-11 Improvements in or relating to photographic reliefs
DEM28721A DE1047623B (en) 1955-11-09 1955-11-09 Process for the production of raised records, especially for reproduction purposes, and film material intended for this process
US156437A US3093478A (en) 1955-11-09 1961-12-01 Photographic reliefs made by means of transfer intermediaries which produce gas upon irradiation

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DEM28721A DE1047623B (en) 1955-11-09 1955-11-09 Process for the production of raised records, especially for reproduction purposes, and film material intended for this process
US156437A US3093478A (en) 1955-11-09 1961-12-01 Photographic reliefs made by means of transfer intermediaries which produce gas upon irradiation

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US3196013A (en) * 1962-06-07 1965-07-20 Xerox Corp Xerographic induction recording with mechanically deformable image formation in a deformable layer
US3607273A (en) * 1967-03-08 1971-09-21 American Screen Process Equip Image formation by selective foam generation
US3779779A (en) * 1971-05-20 1973-12-18 Perkin Elmer Corp Radiation etchable plate
US3875369A (en) * 1973-10-01 1975-04-01 Electrolux Ab Control for gas-electric refrigerator
US3928039A (en) * 1970-03-13 1975-12-23 Ciba Geigy Ag Method for modifying vesicular images
US3977875A (en) * 1970-03-13 1976-08-31 Ciba-Geigy Ag Method for modifying vesicular images
US3979211A (en) * 1974-02-11 1976-09-07 Xidex Corporation Vesicular image transfer process
US4017312A (en) * 1974-12-23 1977-04-12 Mitsubishi Plastics Industries, Limited Method of manufacturing an article carrying a relief image receptor material comprising exposure and heating steps
US4016814A (en) * 1973-04-13 1977-04-12 Xerox Corporation Planographic printing master
US4113487A (en) * 1975-10-31 1978-09-12 Toppan Printing Co., Ltd. Method for manufacture of expanded articles having an embossed surface
US4268615A (en) * 1979-05-23 1981-05-19 Matsumoto Yushi-Seiyaku Co., Ltd. Method for producing relief
US4371602A (en) * 1978-03-13 1983-02-01 Hidenori Iwasaki Photosensitive printing plate
US5238771A (en) * 1988-05-31 1993-08-24 Konica Corporation Lithographic printing plate utilizing aluminum substrate with photosensitive layer containing o-naphthoquinonediazide sulfonic acid ester, alkali soluble resin and select additive

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GB399269A (en) * 1932-05-31 1933-10-05 Michele Martinez Improvements in or relating to the formation of relief images for photographic and other purposes
US1942872A (en) * 1932-05-16 1934-01-09 Eastman Kodak Co Developing gelatin reliefs and making metal casts therefrom
US1954325A (en) * 1930-11-17 1934-04-10 Martinez Michele Photographically produced gelatin relief
GB645925A (en) * 1948-11-24 1950-11-08 G B Kalee Ltd Improvements in and relating to chairs or seats
US2543181A (en) * 1947-01-15 1951-02-27 Polaroid Corp Photographic product comprising a rupturable container carrying a photographic processing liquid
US2600996A (en) * 1946-10-08 1952-06-17 Polaroid Corp Photographic product comprising a light-sensitive diazonium compound, a coupler and a rupturable containing means holding ammonia under pressure
US2695846A (en) * 1952-11-04 1954-11-30 Powers Chemco Inc Developing of diazo and azide sensitized colloids
US2703756A (en) * 1951-12-12 1955-03-08 Gen Aniline & Film Corp Vesicular prints and process of making same

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Publication number Priority date Publication date Assignee Title
US1919194A (en) * 1930-06-09 1933-07-25 Photo Cast Inc Method of making a printing surface
US1952787A (en) * 1930-06-09 1934-03-27 Photo Cast Inc Method of printing
US1990925A (en) * 1930-06-09 1935-02-12 Photo Cast Inc Method of preparing a plate for printing purposes
US1954325A (en) * 1930-11-17 1934-04-10 Martinez Michele Photographically produced gelatin relief
US1942872A (en) * 1932-05-16 1934-01-09 Eastman Kodak Co Developing gelatin reliefs and making metal casts therefrom
GB399269A (en) * 1932-05-31 1933-10-05 Michele Martinez Improvements in or relating to the formation of relief images for photographic and other purposes
US2600996A (en) * 1946-10-08 1952-06-17 Polaroid Corp Photographic product comprising a light-sensitive diazonium compound, a coupler and a rupturable containing means holding ammonia under pressure
US2543181A (en) * 1947-01-15 1951-02-27 Polaroid Corp Photographic product comprising a rupturable container carrying a photographic processing liquid
GB645925A (en) * 1948-11-24 1950-11-08 G B Kalee Ltd Improvements in and relating to chairs or seats
US2703756A (en) * 1951-12-12 1955-03-08 Gen Aniline & Film Corp Vesicular prints and process of making same
US2695846A (en) * 1952-11-04 1954-11-30 Powers Chemco Inc Developing of diazo and azide sensitized colloids

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3196013A (en) * 1962-06-07 1965-07-20 Xerox Corp Xerographic induction recording with mechanically deformable image formation in a deformable layer
US3607273A (en) * 1967-03-08 1971-09-21 American Screen Process Equip Image formation by selective foam generation
US3928039A (en) * 1970-03-13 1975-12-23 Ciba Geigy Ag Method for modifying vesicular images
US3977875A (en) * 1970-03-13 1976-08-31 Ciba-Geigy Ag Method for modifying vesicular images
US3779779A (en) * 1971-05-20 1973-12-18 Perkin Elmer Corp Radiation etchable plate
US4016814A (en) * 1973-04-13 1977-04-12 Xerox Corporation Planographic printing master
US3875369A (en) * 1973-10-01 1975-04-01 Electrolux Ab Control for gas-electric refrigerator
US3979211A (en) * 1974-02-11 1976-09-07 Xidex Corporation Vesicular image transfer process
US4017312A (en) * 1974-12-23 1977-04-12 Mitsubishi Plastics Industries, Limited Method of manufacturing an article carrying a relief image receptor material comprising exposure and heating steps
US4113487A (en) * 1975-10-31 1978-09-12 Toppan Printing Co., Ltd. Method for manufacture of expanded articles having an embossed surface
US4371602A (en) * 1978-03-13 1983-02-01 Hidenori Iwasaki Photosensitive printing plate
US4268615A (en) * 1979-05-23 1981-05-19 Matsumoto Yushi-Seiyaku Co., Ltd. Method for producing relief
US5238771A (en) * 1988-05-31 1993-08-24 Konica Corporation Lithographic printing plate utilizing aluminum substrate with photosensitive layer containing o-naphthoquinonediazide sulfonic acid ester, alkali soluble resin and select additive

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DE1047623B (en) 1958-12-24

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