US2230981A - Printing plate - Google Patents

Printing plate Download PDF

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US2230981A
US2230981A US347044A US34704440A US2230981A US 2230981 A US2230981 A US 2230981A US 347044 A US347044 A US 347044A US 34704440 A US34704440 A US 34704440A US 2230981 A US2230981 A US 2230981A
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printing
water
hydrophilic
areas
polyvinyl alcohol
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US347044A
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Toland William Craig
Bassist Ellis
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Priority to GB30399/38A priority Critical patent/GB521593A/en
Priority to US306140A priority patent/US2230982A/en
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    • 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
    • G03F7/004Photosensitive materials
    • G03F7/04Chromates
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41NPRINTING PLATES OR FOILS; MATERIALS FOR SURFACES USED IN PRINTING MACHINES FOR PRINTING, INKING, DAMPING, OR THE LIKE; PREPARING SUCH SURFACES FOR USE AND CONSERVING THEM
    • B41N3/00Preparing for use and conserving printing surfaces
    • B41N3/03Chemical or electrical pretreatment
    • B41N3/036Chemical or electrical pretreatment characterised by the presence of a polymeric hydrophilic coating
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41CPROCESSES FOR THE MANUFACTURE OR REPRODUCTION OF PRINTING SURFACES
    • B41C1/00Forme preparation
    • B41C1/10Forme preparation for lithographic printing; Master sheets for transferring a lithographic image to the forme
    • B41C1/1008Forme preparation for lithographic printing; Master sheets for transferring a lithographic image to the forme by removal or destruction of lithographic material on the lithographic support, e.g. by laser or spark ablation; by the use of materials rendered soluble or insoluble by heat exposure, e.g. by heat produced from a light to heat transforming system; by on-the-press exposure or on-the-press development, e.g. by the fountain of photolithographic materials
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41CPROCESSES FOR THE MANUFACTURE OR REPRODUCTION OF PRINTING SURFACES
    • B41C2210/00Preparation or type or constituents of the imaging layers, in relation to lithographic printing forme preparation
    • B41C2210/04Negative working, i.e. the non-exposed (non-imaged) areas are removed
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41CPROCESSES FOR THE MANUFACTURE OR REPRODUCTION OF PRINTING SURFACES
    • B41C2210/00Preparation or type or constituents of the imaging layers, in relation to lithographic printing forme preparation
    • B41C2210/08Developable by water or the fountain solution
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41CPROCESSES FOR THE MANUFACTURE OR REPRODUCTION OF PRINTING SURFACES
    • B41C2210/00Preparation or type or constituents of the imaging layers, in relation to lithographic printing forme preparation
    • B41C2210/24Preparation or type or constituents of the imaging layers, in relation to lithographic printing forme preparation characterised by a macromolecular compound or binder obtained by reactions involving carbon-to-carbon unsaturated bonds, e.g. acrylics, vinyl polymers

Definitions

  • This invention relates to planographic printing plates and is a continuation in part of earlier applications, Ser. No. 311,294, filed December 28, 1939 and Ser. No. 170,762, filed October 25, 1937.
  • the invention also aims to present a combination of materials adapted to provide a coated body which gives printing effects equivalent to, or better than, the efiects obtained with lithographic stone printing.
  • planographic printing plates as indicated above, it is customary to provide a metal support and to rely on grained metal surfaces for retaining water and repelling greasy inks in the non-printing portions of the plate.
  • the usual practice is to employ the metals aluminum arid zinc to comprise the support and to grain-one side of the metal so that it may retain water by capillary attraction. This is expensive and slow,
  • a synthetic hydrophilic resin in a film state to take the place of the grained metal surfaces described.
  • a thin layer of a resin as for example from a suspension of polyvinyl alcohol (3% solution) on a suitable support. This film is allowed to set and is then moistened. Printing portions are thereafter prepared on a film, as for example by the albumin process.
  • This albumin process consists in applying on the moistened film a coating material which consists of albumin and a material sensitive to actinic light such as ammonium bichromate, or other chromic salt.
  • the film of sensitized albumin is allowed to dry and is then exposed under a negative to actinic light, whereby the exposed portions of the albumin become hardened and grease-receptive.
  • the plate is then rolled up with a developing ink, held under running water and developed by lightly rubbing asviith a pledget of cotton to remove the ink and albumin from the non-exposed areas.
  • This efiects printing portions of albumin which are sensitized to grease and non-printing surfaces of hydrophilic material which retain water by absorption and are thereby desensitized to grease.
  • a suitable support as for instance metals of many types, plastic compositions, paper and the like. It will be observed that this is a' definite advantage since with a plate of grained surface only metal may be utilized and only a few metals such as zinc and aluminum are satisfactory.
  • polyvinyl alcohol may be employed, as 5% and 10% solutions and others.
  • certain other resins may be employed as vinyl resins, such as vinyl acetates, halides, esters, copolymers of esters, ethers, ketones, alcoholates, and the like.
  • synthetic resins of a normally hydrophilic character and particularly synthetic hydrophilic colloids which may be put into solution or suspension and thus may be readily coated on a support to comprise a film, which will absorb water in a suitable manner for forming the non-printing portions of a planographic printing plate.
  • Such films may comprise certain synthesized materials obtained from hydrocarbons, phenols, aldehydes, ketones,
  • a few such resins from which plates less desirable than vinyl plates comprise (a) a product obtained from heating to 100 C. 150 parts of diethylene glycol and 70 parts of boric acid together with 80 parts of borax with agitation (aqueous solution); (1)) a product obtained from treating polyvinyl alcohol with an aldehyde and a substance capable of condensing with the aldehyde, as a phenol; (c) a product obtained by treating a vinyl ester-aldehyde with another aldehyde; (d) a product obtained by heating methylolurea with a compound containing at least two free hydroxyl groups (aqueous solution); (e) and a condensation product resulting from treating aryl sulphonamido carboxylic acid amide with formaldehyde (aqueous solutions).
  • a further aspect of our invention deals with a plate having modified hydrophilic non-printing portions comprising a hydrophilic material combined with a chromic salt such as ammonium bichromate, particular reference being had to polyvinyl alcohol and other vinyl compounds.
  • the desirable hardening effect noted may result from the reaction which takes place upon the mere admixture oi. the bichromate and the colloid. It maybe expedited, however, by subdecting the mixture to light, heat, and/or pressure. Although light is effective as an agent for expediting the reaction, we prefer not to use it in reacting the chromic salt with a vinyl compound such as the alcohol, for the reason that it renders the film dark yellow in color. Maintenance of the translucent character of the film,
  • a desirable treatment of a hydrophilic synthetic material to decrease water-receptivity may also be effected with a copper salt such as cupric chloride.
  • a copper salt such as cupric chloride.
  • various proportions may be employed of which one specific example consists in the following amounts:
  • Another feature of the invention consists in the use of a hydrophilic material, of which the polyvinyl alcohol is particularly exemplary, with clays or other fillers to provide a suspension having a consistency Well adapted to being uniformly spread over a base, and to forming a satisfactory printing surface which gives printing quality resembling that obtained from printing with lithographic stone.
  • the colloidal character of polyvinyl alcohol in particular, enables this substance to become intimately incorporated with the tiny filler particles which provides a suspension of highly uniform consistency, well adapted to forming a smooth coating and to being spread out in a very thin state.
  • the hydrophilic material functions as a bonding agent interposed in and around the filler particles, and also continues to accept water in the usual manner. This effects a permanent water reservoir between the filler particles which is not affected by any exposure to grease and which makes possible long life operation of the plate.
  • the filler particles lend a certain amount of hardness to the hydrophilic materials, may be utilized to reduce and also to maintain substantially constant the amount of water retained in any given surface area, and may provide a mild grain in the surface greatly resembling the grain of lithographic stone.
  • the hydrophilic materials may be rendered more adhesive and, in some instances, such suspensions will stick firmly to materials on which the hydrophilic material alone cannot be bonded.
  • a filler such as clay may in some cases eliminate the use of the various hardening agents already discussed, and is further useful in facilitating penetration and retention of materials making up the printing image portions of the plate, and in inking such portions. With some proportions of filler and hydrophilic material, swelling in the non-printing portions of a plate prepared from the mixture is substantially reduced or eliminated.
  • hydrophilic materials which may be placed in suspension with hydrophilic materials are calcium carbonate, kaolin and china clay. Others may be desired to be employed, as for example feldspar, fluorspar, barium sulphate, calcium chloride, and the like.
  • a preferred hydrophilic material is polyvinyl alcohol. Hydrophilic substances such as vinyl compounds and others above referred to may also be employed. Various proportions of the hydrophilic material and filler may be used. One example thereof consists in the following mixture:
  • 5% polyvinyl alcohol pt 1 China clay oz 2 Other amounts in the same proportion may be resorted to.
  • the various hardening agents recited above may be desired to be employed with the mixture in some cases.
  • various treatments may be given a coating formed from these mixtures. For instance, a coating may be subjected to etching treatments if desired, or it may be subjected to immersion in various preserving materials or other reagents.
  • the invention provides improved printing plates, greatly superior to plates having grained surfaces for retaining moisture by capillarity.
  • the hydrophilic coating can be more cheaply and quickly prepared, and may effect improved printing quality.
  • Various materials may be used to support the coating, and limitation to use of zinc or aluminum is obviated.
  • the hydrophilic character of the coating is limited by several means to a highly satisfactory point. If the coating without filler is employed on a grained surface, it should be noted that it conforms to such grain, thereby presenting a secondary grained surface of softened or modified character which in some instances may be employed to effect finer halftone quality of printing.
  • hydrophilic as employed in the specification is intended to mean "water-absorptive and not water-soluble. Where the material referred to may occur in both water soluble and water-absorptive states, as for example polyvinyl alcohol, which is soluble in hot water but which in a film state may be rendered only water absorptive to cold water, it isintended that the term hydrophilic refer to the material in a water-absorptive state.
  • a printing plate presenting water-receptive areas comprising a polyvinyl alcohol.
  • a colloidal printing plate having printing areas and nonprinting areas occurring therein, said non-printing areas comprising polyvinyl alcohol in a water- 5 receptive state.
  • a colloidal printing plate having printing areas and nonprinting areas occurring thereon, said non-printing areas comprising that hydrophilic product obtained from hardening polyvinyl alcohol with ammonium bichromate in the presence of ferric chloride.
  • a colloidal printing body having printing areas and nonprinting areas occurring therein, said non-printing areas comprising hydrophilic polyvinyl alcohol and the exposed surfaces of said areas being roughened to further promote water-receptivity by capillary action.
  • a colloidal printing plate comprising a base and a material coated over said base, said material presenting printing areas and non-printing areas and said non-printing areas comprising water-receptive polyvinyl alcohol.
  • a colloidal printing plate comprising a base and a coating of polyvinyl alcohol on said base, said polyvinyl alcohol coating presenting selective non-printing areas having a substantially fixed degree of water receptivity.
  • polyvinyl alcohol coating presenting hydrophilic non-printing" areas, the polyvinyl alcohol comprising the non-printing areas being in a state of polymerization of such degree as to provide a water receptivity substantially equivalent in uniformity and deflniteness of moisture retention to the water receptivity of a grained metal lithographic printing plate.
  • a colloidal printing plate having printing areas and nonprintlng areas occurring thereon, said non-printing areas comprisinga hydrophilic product resulting from hardening polyvinyl alcohol with ammonium bichromate in the presence of ferric sulphate.
  • a printing plate presenting water-receptive areas comprising a vinyl compound.
  • a printing plate presenting water-receptive areas comprising co-polymers of vinyl esters.
  • a printing plate presenting water-receptive areas comprising polyvinyl alcohol and ammonium bichromate.
  • a printing plate presenting water-receptive areas comprising polyvinyl alcohol, ammonium bichromate and ferric chloride.
  • a colloidal printing plate comprising a base plate presenting water-receptive areas including a polymerized vinyl compound and a chromic salt.
  • a printing plate presenting water-receptive areas comprising a vinyl compound, a chromic salt and a salt selected from the group consisting of ferric chloride, ferric sulphate and the like.
  • a printing plate presenting water-receptive areas comprising vinyl acetate.
  • a printing plate presenting water-receptive areas comprising a vinyl ester.
  • a printing plate presenting water-receptive areas comprising a vinyl ether.
  • a printing plate presenting water-receptive areas comprising a vinyl compound and cupric chloride.
  • a printing plate presenting water-receptive areas which comprise a mixture of a vinyl compound and a finely divided clay-like material.
  • a printing plate presenting water-receptive areas comprising a mixture of a hydrophilic vinyl compound and a filler.
  • a printing plate presenting water-receptive areas comprising a mixture of polyvinyl alcohol and a flller.
  • a printing plate presenting water-receptive areas comprising a mixture of a hydrophilic vinyl resin, a finely divided, clay-like filler, and a hardening agent.
  • a printing plate presenting a surface coating consisting of a mixture of a hydrophilic vinyl resin and a filler, a grease-receptive printing image impregnated in the filler and.resin mixture to form printing and non-printing portions of a pianographic printing surface.
  • a printing plate presenting water-receptive areas comprising a vinyl resin. an ingredient for hardening the vinyl compound and an ingredient for imparting porosity thereto.
  • a printing plate comprising a base, a coating on said base consisting of a mixture of a water-receptive vinyl compound and an ingredient for reducing swelling of the vinyl compound, printing portions supported on the said coating and bonded to the said ingredient and vinyl compound.
  • a printing plate presenting water-receptive areas comprising a hydrophilic film of a vinyl compound and an ingredient for modifying the water-receptivity of the vinyl compound.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Printing Plates And Materials Therefor (AREA)

Description

Patented Feb. 4, 1941 UNITED STATES PATENT OFFICE Masa, assignors to William Craig Toland,
Brookllne, Masa, as trustee No Drawing. Application July 23, 1940, Serial No. 347,044
26 Claim.
This invention relates to planographic printing plates and is a continuation in part of earlier applications, Ser. No. 311,294, filed December 28, 1939 and Ser. No. 170,762, filed October 25, 1937.
In the preparation of planographic printing plate surfaces, it is now customary, in most cases, to employ metal plates. The surfaces of these plates are required to be roughened by a graining operation which renders the surfaces capable of retaining films of water and becoming thereby grease-repellent. The graining operation increases to an objectionable extent the cost of preparation of plates by both the time and labor required and the equipment employed. In addition to its cost, the graining operation is objectionable due to the fact that plates prepared by it must be subjected to etching or gumming operations both during the preparation and operation of the plate. Furthermore, satisfactory grained metal lithographic surfaces can be prepared on only a few relatively expensive metals.
It is a chief object of the present invention to improve planographic printing plates and to devise novel water-receptive portions of a planographic plate surface which may take the place of grained plate surfaces and eliminate some etching and gumming treatments now required to be carried out in connection with grained metal plates, and which may make possible the use of various metals and other materials to comprise a base for a printing plate.
The invention also aims to present a combination of materials adapted to provide a coated body which gives printing effects equivalent to, or better than, the efiects obtained with lithographic stone printing.
It is a further object of the invention to provide a colloid plate of novel limited water-receptive character, and generally to make available a simple, cheap and efficient printing plate capable of effecting improved printing quality.
The nature of the invention and its objects, will be more fully understood from the following description, and the novel features will be more particularly pointed out in the accompanying claims.
In making planographic printing plates, as indicated above, it is customary to provide a metal support and to rely on grained metal surfaces for retaining water and repelling greasy inks in the non-printing portions of the plate. The usual practice is to employ the metals aluminum arid zinc to comprise the support and to grain-one side of the metal so that it may retain water by capillary attraction. This is expensive and slow,
and involves tying up of many thousands of metal plates which have to be stored and which require therefore a large amount of space. In addition, graining machinery is costly and represents a very considerable investment of money. It may therefore be seen that it is highly desirable to avoid the grained plate construction in preparing a planographic printing surface.
In accordance with our invention, we employ a synthetic hydrophilic resin in a film state to take the place of the grained metal surfaces described. We apply a thin layer of a resin, as for example from a suspension of polyvinyl alcohol (3% solution) on a suitable support. This film is allowed to set and is then moistened. Printing portions are thereafter prepared on a film, as for example by the albumin process.
This albumin process consists in applying on the moistened film a coating material which consists of albumin and a material sensitive to actinic light such as ammonium bichromate, or other chromic salt. The film of sensitized albumin is allowed to dry and is then exposed under a negative to actinic light, whereby the exposed portions of the albumin become hardened and grease-receptive. The plate is then rolled up with a developing ink, held under running water and developed by lightly rubbing asviith a pledget of cotton to remove the ink and albumin from the non-exposed areas. This efiects printing portions of albumin which are sensitized to grease and non-printing surfaces of hydrophilic material which retain water by absorption and are thereby desensitized to grease.
It is pointed out that by applying the coating, the entire step of graining with all of its attendant difliculties is avoided. In addition, due to the hydrophilic character of the film described, moisture is retained by absorption, and capillary effects such as are required in the development c of a hygroscopic surface on a grained metal plate, need not be resorted to. With the hydrophilic plate surface, certain etching and gumming' operations required in connection with the use of grained metal plates may be eliminated or greatly reduced. The hydrophilic film functions somewhat in accordance with the principle of a colloid printing plate by absorbing water in the manner other than albumin, as bichromated gum and the like.
Various materials may be utilized to comprise a suitable support, as for instance metals of many types, plastic compositions, paper and the like. It will be observed that this is a' definite advantage since with a plate of grained surface only metal may be utilized and only a few metals such as zinc and aluminum are satisfactory.
Various other solution strengths of polyvinyl alcohol may be employed, as 5% and 10% solutions and others. In addition to the polyvinyl alcohol resin cited as a suitable coating material for effecting non-printing portions of a plate, certain other resins may be employed as vinyl resins, such as vinyl acetates, halides, esters, copolymers of esters, ethers, ketones, alcoholates, and the like. Also we may employ some synthetic resins of a normally hydrophilic character and particularly synthetic hydrophilic colloids which may be put into solution or suspension and thus may be readily coated on a support to comprise a film, which will absorb water in a suitable manner for forming the non-printing portions of a planographic printing plate. Such films may comprise certain synthesized materials obtained from hydrocarbons, phenols, aldehydes, ketones,
amines, natural resin acids, polyhydric alcohols" and polybasic acids, vinyl compounds, rubber, sulphur and fatty oils. Only those materials obtained from the above noted reactants which, without dissolving, are hydrophilic in a proper degree for meeting lithographic printing limitations, or which may be made so by treatment with reagents, are suitable for purpose of coating in accordance with this invention and are intended to be included.
A few such resins from which plates less desirable than vinyl plates may be made comprise (a) a product obtained from heating to 100 C. 150 parts of diethylene glycol and 70 parts of boric acid together with 80 parts of borax with agitation (aqueous solution); (1)) a product obtained from treating polyvinyl alcohol with an aldehyde and a substance capable of condensing with the aldehyde, as a phenol; (c) a product obtained by treating a vinyl ester-aldehyde with another aldehyde; (d) a product obtained by heating methylolurea with a compound containing at least two free hydroxyl groups (aqueous solution); (e) and a condensation product resulting from treating aryl sulphonamido carboxylic acid amide with formaldehyde (aqueous solutions).
A further aspect of our invention deals with a plate having modified hydrophilic non-printing portions comprising a hydrophilic material combined with a chromic salt such as ammonium bichromate, particular reference being had to polyvinyl alcohol and other vinyl compounds.
The non-printing, portions of this modified plate material shoulc'lnot beconfused with printing portions of plates obtained from hardening albumin or other coatings withfiammonium bichromate where the ammonium bichromate has been employed as: asensiti'zing agent for exposure to actinic light to render the various colloids hard and grease-receptive.
According to our improved'method of treating a hydrophilic coating with a chromic salt, -we provide for directly mixing a solution of a salt, such as ammonium bichromate, with a'solution of polyvinyl alcohol and allowing a film of the product to dry without necessarily employing any action of light or other agents whatever,
although the action of light or other agents in some instances may not be objectionable. Our method is based upon the discovery that the use of a chromic salt, and in particular ammonium bichromate, with a vinyl compound such as polyvinyl alcohol in substantially any proportion, while toughening a film of the vinyl compound, fails to result in the development of a product which is completely water-repellent and hence adapted to receiving grease. This is the opposite case of that which results from combining bichromate with most colloids such as albumin, glue, and the like. These colloids are quickly hardened by bichromate to an extremely waterresistant mass which is easily rendered grease- Qreceptive so that it would cause objectionable smurring in' a plate. Heretofore, it has been considered impossible to allow ammonium bichromate to remain in a hydrophilic colloid film if water receptivity was'desired, for the reason that when combined with colloid materials, the bichromate would continue to harden at a slow rate until sooner or later grease-receptive surfaces were formed. This aspect of'our invention is based essentially on the discovery that the bichromate can be used to limit water-receptivity of a hydrophilic colloid without its necessarily developing grease-receptivity, especially when the treated colloid is moistened before possible contact with greasy or grease-forming materials.
The desirable hardening effect noted may result from the reaction which takes place upon the mere admixture oi. the bichromate and the colloid. It maybe expedited, however, by subdecting the mixture to light, heat, and/or pressure. Although light is effective as an agent for expediting the reaction, we prefer not to use it in reacting the chromic salt with a vinyl compound such as the alcohol, for the reason that it renders the film dark yellow in color. Maintenance of the translucent character of the film,
in a plate or in the print on a plate, is advisable,
as it facilitates correction of errors, as well as preparation and handling of the plate.
A desirable treatment of a hydrophilic synthetic material to decrease water-receptivity may also be effected with a copper salt such as cupric chloride. We may desire to use certain other reagents to accentuate the action of the salt used, as for example ferric chloride or ferric .sulphate mixed with a bichromate solution. It may further be desired to employ these and other agents, as heat and pressure and others, for treating other hydrophilic materials of the class referred to above. In employing the polyvinyl alcohol and the ammonium bichromate, various proportions may be employed of which one specific example consists in the following amounts:
- Oz. 5% polyvinyl alcohol suspension 7 Ammonium bichromate 1 tions. Either with orwithout the ferric chloride, suitable water-receptive films may be quickly obtained from this mixture. Thicker and more slowly drying films may be formed from mixtures of larger proportions of the resin.
The grained metal surfaces of zinc and aluminum plates, for which the coatings of the invention are a substitute, were designed to take the place of lithographic stone. Certain other substitutes have also been attempted from time to time by combining clay, or other filler materials, with a binder such as a colloid, or a cementitious material, or other type of bonding agent. Such mixtures are intended to form a suspension which may be coated upon a suitable base. In a coated state, the clay particles are designed to form a stone-like body having a water absorptive character generally resembling that of lithographic stone. Attempts to coat such suspensions have been unsuccessful. One reason consists in the fact that the suspensions cannot be prepared of a uniform consistency suitable for forming smooth coatings. These mixtures tend to coagulate and form a lumpy mass which prevents uniform application. Also, the dried coatings do not retain water in a satisfactory manner after being subjected, for a short time, to use on a press,
and to the action of grassy inks. This is particularly due to the bonding agents, heretofore employed, becoming sensitized to grease in the non-printing portions of a plate surface which causes smurring or other undesirable ink transfer.
Another feature of the invention consists in the use of a hydrophilic material, of which the polyvinyl alcohol is particularly exemplary, with clays or other fillers to provide a suspension having a consistency Well adapted to being uniformly spread over a base, and to forming a satisfactory printing surface which gives printing quality resembling that obtained from printing with lithographic stone. The colloidal character of polyvinyl alcohol, in particular, enables this substance to become intimately incorporated with the tiny filler particles which provides a suspension of highly uniform consistency, well adapted to forming a smooth coating and to being spread out in a very thin state.
In a dried coating of a mixture as described, the hydrophilic material functions as a bonding agent interposed in and around the filler particles, and also continues to accept water in the usual manner. This effects a permanent water reservoir between the filler particles which is not affected by any exposure to grease and which makes possible long life operation of the plate. At the same time, the filler particles lend a certain amount of hardness to the hydrophilic materials, may be utilized to reduce and also to maintain substantially constant the amount of water retained in any given surface area, and may provide a mild grain in the surface greatly resembling the grain of lithographic stone.
By the addition of a filler, the hydrophilic materials may be rendered more adhesive and, in some instances, such suspensions will stick firmly to materials on which the hydrophilic material alone cannot be bonded. One example of such a substance is rubber. The hardening effect of a filler such as clay may in some cases eliminate the use of the various hardening agents already discussed, and is further useful in facilitating penetration and retention of materials making up the printing image portions of the plate, and in inking such portions. With some proportions of filler and hydrophilic material, swelling in the non-printing portions of a plate prepared from the mixture is substantially reduced or eliminated.
Preferred filler materials which may be placed in suspension with hydrophilic materials are calcium carbonate, kaolin and china clay. Others may be desired to be employed, as for example feldspar, fluorspar, barium sulphate, calcium chloride, and the like. A preferred hydrophilic material is polyvinyl alcohol. Hydrophilic substances such as vinyl compounds and others above referred to may also be employed. Various proportions of the hydrophilic material and filler may be used. One example thereof consists in the following mixture:
5% polyvinyl alcohol pt 1 China clay oz 2 Other amounts in the same proportion may be resorted to. If desired, the various hardening agents recited above may be desired to be employed with the mixture in some cases. Also, various treatments may be given a coating formed from these mixtures. For instance, a coating may be subjected to etching treatments if desired, or it may be subjected to immersion in various preserving materials or other reagents.
It will be seen that the invention provides improved printing plates, greatly superior to plates having grained surfaces for retaining moisture by capillarity. The hydrophilic coating, either with or without fillers, can be more cheaply and quickly prepared, and may effect improved printing quality. Various materials may be used to support the coating, and limitation to use of zinc or aluminum is obviated. The hydrophilic character of the coating is limited by several means to a highly satisfactory point. If the coating without filler is employed on a grained surface, it should be noted that it conforms to such grain, thereby presenting a secondary grained surface of softened or modified character which in some instances may be employed to effect finer halftone quality of printing. This is particularly the case where a paper support is used which presents a very fine grain for the coating to conform to. Various other graining effects such as roughening to promote water-receptivity by capillarity, may be resorted to, with the coatings. The addition of fillers in the manner described further enhances the desirable water receptive character of the hydrophilic materials generally, and provides a type of printing which is an excellent substitute for lithographic stone printing.
The term hydrophilic as employed in the specification is intended to mean "water-absorptive and not water-soluble. Where the material referred to may occur in both water soluble and water-absorptive states, as for example polyvinyl alcohol, which is soluble in hot water but which in a film state may be rendered only water absorptive to cold water, it isintended that the term hydrophilic refer to the material in a water-absorptive state.
While we have disclosed preferred reagents, materials and procedures, it should be understood that various changes and modifications may be resorted to therein, in keeping with the spirit of the invention as defined by the appended claims.
Having described our invention, we claim:
1. As a new article of manufacture, a printing plate presenting water-receptive areas comprising a polyvinyl alcohol.
2. As a new article of manufacture, a colloidal printing plate having printing areas and nonprinting areas occurring therein, said non-printing areas comprising polyvinyl alcohol in a water- 5 receptive state.
3. As a new article of manufacture, a colloidal printing plate having printing areas and nonprinting areas occurring thereon, said non-printing areas comprising that hydrophilic product obtained from hardening polyvinyl alcohol with ammonium bichromate in the presence of ferric chloride.
4. As a new article of manufacture, a colloidal printing body having printing areas and nonprinting areas occurring therein, said non-printing areas comprising hydrophilic polyvinyl alcohol and the exposed surfaces of said areas being roughened to further promote water-receptivity by capillary action.
5. A colloidal printing plate comprising a base and a material coated over said base, said material presenting printing areas and non-printing areas and said non-printing areas comprising water-receptive polyvinyl alcohol.
6. A colloidal printing plate comprising a base and a coating of polyvinyl alcohol on said base, said polyvinyl alcohol coating presenting selective non-printing areas having a substantially fixed degree of water receptivity.
and a film of polyvinyl alcohol coated on said base, said polyvinyl alcohol coating presenting hydrophilic non-printing" areas, the polyvinyl alcohol comprising the non-printing areas being in a state of polymerization of such degree as to provide a water receptivity substantially equivalent in uniformity and deflniteness of moisture retention to the water receptivity of a grained metal lithographic printing plate.
8. As a new article of manufacture, a colloidal printing plate having printing areas and nonprintlng areas occurring thereon, said non-printing areas comprisinga hydrophilic product resulting from hardening polyvinyl alcohol with ammonium bichromate in the presence of ferric sulphate.
9. As a new article of manufacture, a printing plate presenting water-receptive areas comprising a vinyl compound.
10. As a new article of manufacture, a printing plate presenting water-receptive areas comprising co-polymers of vinyl esters.
11. As a new article of manufacture, a printing plate presenting water-receptive areas comprising polyvinyl alcohol and ammonium bichromate.
12. As a new article of manufacture, a printing plate presenting water-receptive areas comprising polyvinyl alcohol, ammonium bichromate and ferric chloride.
13. As a new article of manufacture, a printing 7. A colloidal printing plate comprising a base plate presenting water-receptive areas including a polymerized vinyl compound and a chromic salt.
14. As a new article of manufacture a printing plate presenting water-receptive areas comprising a vinyl compound, a chromic salt and a salt selected from the group consisting of ferric chloride, ferric sulphate and the like.
15. As a new article of manufacture, a printing plate presenting water-receptive areas comprising vinyl acetate.
16. As a new article of manufacture, a printing plate presenting water-receptive areas comprising a vinyl ester.
17. As a new article of manufacture, a printing plate presenting water-receptive areas comprising a vinyl ether.
18. As a new article of manufacture, a printing plate presenting water-receptive areas comprising a vinyl compound and cupric chloride.
19. As an article of manufacture, a printing plate presenting water-receptive areas which comprise a mixture of a vinyl compound and a finely divided clay-like material.
20. As an article of manufacture, a printing plate presenting water-receptive areas comprising a mixture of a hydrophilic vinyl compound and a filler.
21. As an article of manufacture, a printing plate presenting water-receptive areas comprising a mixture of polyvinyl alcohol and a flller.
22. As an article of manufacture, a printing plate presenting water-receptive areas comprising a mixture of a hydrophilic vinyl resin, a finely divided, clay-like filler, and a hardening agent.
23. Asan article of manufacture, a printing plate presenting a surface coating consisting of a mixture of a hydrophilic vinyl resin and a filler, a grease-receptive printing image impregnated in the filler and.resin mixture to form printing and non-printing portions of a pianographic printing surface.
24. As an article of manufacture, a printing plate presenting water-receptive areas comprising a vinyl resin. an ingredient for hardening the vinyl compound and an ingredient for imparting porosity thereto.
25. As an article of manufacture, a printing plate comprising a base, a coating on said base consisting of a mixture of a water-receptive vinyl compound and an ingredient for reducing swelling of the vinyl compound, printing portions supported on the said coating and bonded to the said ingredient and vinyl compound.
26. As an article of manufacture a printing plate presenting water-receptive areas comprising a hydrophilic film of a vinyl compound and an ingredient for modifying the water-receptivity of the vinyl compound.
WILLIAM CRAIG TOLAND. ELLIS BASSIST.
US347044A 1937-10-25 1940-07-23 Printing plate Expired - Lifetime US2230981A (en)

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GB30399/38A GB521593A (en) 1937-10-25 1938-10-20 Improvements in printing plates and processes
US306140A US2230982A (en) 1937-10-25 1939-11-25 Method of making printing plates
US347044A US2230981A (en) 1937-10-25 1940-07-23 Printing plate

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US306140A US2230982A (en) 1937-10-25 1939-11-25 Method of making printing plates
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Cited By (18)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2444205A (en) * 1944-03-27 1948-06-29 William G Mullen Lithographic printing plate
US2445581A (en) * 1943-12-09 1948-07-20 Polaroid Corp Treatment of polarizing polyvinyl alcohol-iodine sorption complex image with boric acid
US2534588A (en) * 1946-08-19 1950-12-19 Warren S D Co Paper base planographic printing plate
US2550326A (en) * 1949-01-12 1951-04-24 Jones Graphic Products Company Planographic printing
US2635537A (en) * 1950-07-19 1953-04-21 Warren S D Co Paper planographic printing plate with stabilized hydrophilic coating
US2647835A (en) * 1948-09-29 1953-08-04 Du Pont Light-sensitive photographic element and process of coating
US2655864A (en) * 1945-12-22 1953-10-20 Columbia Ribbon & Carbon Method of making planographic plates
US2696783A (en) * 1948-11-06 1954-12-14 Columbia Ribbon Carbon Mfg Planographic plate and method of making the same
US2787213A (en) * 1954-09-30 1957-04-02 Ideal Roller And Mfg Company Dampener for offset lithographic printing
US2806424A (en) * 1947-03-27 1957-09-17 Anthony L Ensink Planographic printing plate
US2937085A (en) * 1954-01-11 1960-05-17 Ditto Inc Composite photosensitive plate, and method of making printing plate therefrom
US3113511A (en) * 1961-02-27 1963-12-10 Harold R Dalton Composite stencil-offset printing blank
US3131630A (en) * 1959-06-08 1964-05-05 Gestetner Ltd Planographic printing plates
US3228327A (en) * 1962-04-05 1966-01-11 Kvp Sutherland Paper Co Multipurpose duplicating master
US3652271A (en) * 1967-09-01 1972-03-28 Addressograph Multigraph Photoelectrostatic recording member
US4063507A (en) * 1975-06-04 1977-12-20 Fuji Photo Film Co., Ltd. Process for burning in planographic printing plates
US5024918A (en) * 1976-12-23 1991-06-18 Texas Instruments Incorporated Heat activated dry development of photoresist by means of active oxygen atmosphere
EP0650094A2 (en) * 1993-10-22 1995-04-26 Hoechst Aktiengesellschaft Photosensitive material and process for making printing plates

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2570262A (en) * 1947-01-23 1951-10-09 Columbia Ribbon & Carbon Photosensitive planographic plate
US2693145A (en) * 1948-03-09 1954-11-02 Dick Co Ab Lithographic printing plate and method of making
GB907718A (en) * 1957-11-01 1962-10-10 Lithoplate Inc Hydrophilic base plates for diazo presensitized lithographic printing plates

Cited By (21)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2445581A (en) * 1943-12-09 1948-07-20 Polaroid Corp Treatment of polarizing polyvinyl alcohol-iodine sorption complex image with boric acid
US2444205A (en) * 1944-03-27 1948-06-29 William G Mullen Lithographic printing plate
US2655864A (en) * 1945-12-22 1953-10-20 Columbia Ribbon & Carbon Method of making planographic plates
US2534588A (en) * 1946-08-19 1950-12-19 Warren S D Co Paper base planographic printing plate
US2806424A (en) * 1947-03-27 1957-09-17 Anthony L Ensink Planographic printing plate
US2647835A (en) * 1948-09-29 1953-08-04 Du Pont Light-sensitive photographic element and process of coating
US2696783A (en) * 1948-11-06 1954-12-14 Columbia Ribbon Carbon Mfg Planographic plate and method of making the same
US2550326A (en) * 1949-01-12 1951-04-24 Jones Graphic Products Company Planographic printing
US2635537A (en) * 1950-07-19 1953-04-21 Warren S D Co Paper planographic printing plate with stabilized hydrophilic coating
US2937085A (en) * 1954-01-11 1960-05-17 Ditto Inc Composite photosensitive plate, and method of making printing plate therefrom
US2787213A (en) * 1954-09-30 1957-04-02 Ideal Roller And Mfg Company Dampener for offset lithographic printing
US3131630A (en) * 1959-06-08 1964-05-05 Gestetner Ltd Planographic printing plates
US3113511A (en) * 1961-02-27 1963-12-10 Harold R Dalton Composite stencil-offset printing blank
US3228327A (en) * 1962-04-05 1966-01-11 Kvp Sutherland Paper Co Multipurpose duplicating master
US3652271A (en) * 1967-09-01 1972-03-28 Addressograph Multigraph Photoelectrostatic recording member
US4063507A (en) * 1975-06-04 1977-12-20 Fuji Photo Film Co., Ltd. Process for burning in planographic printing plates
US5024918A (en) * 1976-12-23 1991-06-18 Texas Instruments Incorporated Heat activated dry development of photoresist by means of active oxygen atmosphere
EP0650094A2 (en) * 1993-10-22 1995-04-26 Hoechst Aktiengesellschaft Photosensitive material and process for making printing plates
EP0650094A3 (en) * 1993-10-22 1996-02-21 Hoechst Ag Photosensitive material and process for making printing plates.
US5688629A (en) * 1993-10-22 1997-11-18 Agfa-Gevaert Ag Process for the production of lithographic printing plates utilizing peel development
US5691106A (en) * 1993-10-22 1997-11-25 Agfa-Gevaert Ag Photosensitive material for the production of lithographic printing plates utilizing peel development

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US2230982A (en) 1941-02-04

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