Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
  • B41N—PRINTING 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
  • B41N3/00—Preparing for use and conserving printing surfaces
  • B41N3/08—Damping; Neutralising or similar differentiation treatments for lithographic printing formes; Gumming or finishing solutions, fountain solutions, correction or deletion fluids, or on-press development
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
  • B41N—PRINTING 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
  • B41N1/00—Printing plates or foils; Materials therefor
  • B41N1/12—Printing plates or foils; Materials therefor non-metallic other than stone, e.g. printing plates or foils comprising inorganic materials in an organic matrix
  • B41N1/14—Lithographic printing foils

Definitions

• This invention relates to the art of planognaphic printing and it relates more particularly to the art of lithographic printing and .to the method for the preparation of an imaged master for use in the practice of same. 7
• the master maybe in the form of a paper base master or alternatively may comprise such material bonded to a substrate of e.g. plastic, metal or textile fabric, the master as a whole having sufficient flexibility for bending about a typewriter platen but with sufficient strength to maintain dimensional stability for at least the number of copies that it is desired to produce therefrom.
• the normal procedure is first to render the surface of the'master lithographic, then apply an oleophilic image to the paper master and finally apply a so-called etch composition to the imaged master so that the non-imaged areas become hydrophilic Whilst leaving the imaged areas oleophilic.
• the treated master can then be used in an off-set planogr-aphic printing machine provided with ink and water fountains so that a reproduced image is transferred only from the imaged areas onto the offset roller and thence onto the paper to be printed.
• the paper base master used in such a procedure frequently consists of a wet-strength paper coated with a series of coatings to obtain a lithographic surface, i.e.
• paper having a resin added to the pulp during the paper-making operation to confer so-called wet strength is first coated with a slurry of casein, clay and zinc oxide to provide an oil-receptive barrier coat, the barrier coat is coated with a slurry of clay and casein and this second coating is treated with a so-called wash coat comprising an aqueous solution of a polyvalent metal salt which confers lithographic properties on the clay-casein coat.
• the resultant master is brushed to a smooth finish and, provided due care has been exercised in the choice of materials and preparation of the master, possesses to a greater or lesser degree the aforesaid critical balance.
• the master may then be imaged, treated with a so-called etch solution (frequently comprising a buffered solution of phosphoric acid).
• etch solution frequently comprising a buffered solution of phosphoric acid.
• paper masters prepared from paper not having a critical balance of hydrophilic and oleophilic properties but which is, in fact, distinctly oleophilic.
• Paper of this type is normally prepared by applying a slurry of a hydrophilic colloid binder e.g. casein, containing a filler and/ or pigment, e.g. clay and/or zinc oxide to paper and calendering the coated paper.
• a hydrophilic colloid binder e.g. casein
• a filler and/ or pigment e.g. clay and/or zinc oxide
• a method of preparing an imaged paper base master for use in a planographic printing process which comprises imaging the surface of a paper base, said surface being non-lithographic and olephilic and which preferably has a high pick resistance, and subjecting the imaged surface to the action of a pro-etch solution comprising an aqueous solution of a polyvalent metal salt, preferably also containing a hydrophilic colloid, and then subjecting the imaged surface to the action of an aqueous, preferably mildly acidic, etch solution containing an anion which reacts with the metal cation in the pre-etch solution to form an insoluble or sparingly soluble precipitate.
• non-lithographic as applied to the paper surface is meant that an imaged surface of this nature is incapable of being directly used in a planographic printing process when subjected to the action of an aqueous phosphoric acid etch solution.
• high pick resistance is meant a pick resistance of at least 7A and preferably at least 9A when determined on the dry surface of the master according to the standard Dennison wax test.
• the surface of the master should also preferably have high-surface strength in the moist state. This may be achieved by the presence of resins in the paper to confer wet-strength.
• Papers with a pick resistance of less than 7A and poor moist strength are capable of producing a. limited number of copies when used as masters according to the invention. However, from a practical viewpoint, papers of high pick resistance capable of consistently printing 25 to 300 or more copies are preferred.
• the pre-etch solution may be an aqueous solution of any convenient polyvalent metal salt provided that this is not deleterious to any extent to the paper base or to the greasy image.
• the metal may be divalent or trivalent or may even possess a higher valency.
• the amount of salt required will depend on the extent to which the paper is oleophilic i.e. the more oleophilic the paper the greater will be the quantity of salt required. The latter requirement will of course depend on the solubility of the salt in the pre-etch. The choice of salt will depend on questions such as its solubility, its eflicacy and its cost.
• the salt may be derived from a monoor poly-basic acid and the acid may be organic or inorganic.
• suitable acids include acetic acid, hydrochloric acid, nitric acid and sulphuric acid.
• zinc salts are satisfactory and relatively inexpensive and it is found to be advantageous to use zinc acetate.
• hydrophilic colloid In order to ensure a combination of good pick resistance with rapid pick-up of image from the inked master it is desirable to include in the pre-etch solution a hydrophilic colloid.
• the hydrophilic colloid should be of such a nature and be used in such a manner that the viscosity of the pre-etch is kept sufiiciently low to permit easy application to the surface of the master by the customary manual or automatic applicators.
• the hydrophilic colloid may be natural or synthetic or may be a derivative of a natural substance. Colloids which may be used include cellulose derivatives, e.g.
• gum tragacanth guar gum, gum arabic, gelatine and polyvinyl alcohol. It is particularly preferred to use gum tragacanth since this colloid gives rise to aqueous solutions compatible with most metal salts and of a convenient viscosity.
• the hydrophilic colloid should also not be one which reacts with the metal salt to form a precipitate although it need not necessarily be non-reactive.
• the pre-etch solution may also contain an inert colloidal solid material in order to improve the running properties of the master and to reduce sensitivity towards handling.
• the colloidal material may be, for example, silica and this is conveniently added in the form of a silica aquasol.
• the pre-etch solution may contain 2-30%, preferably 8- 15'%, by weight of salt, and, if present, 0.2%, preferably 0.5.2%, by weight of hydrophilic colloid and 0.55% by weight of inert colloidal solid material.
• the pre-etch solution may also contain a compatible surface agent to improve wetting of the paper base master.
• Suitable surface-active agents include, for example, nonionic wetting agents e.g. condensation products of ethylene oxide with alkyl phenols, or low molecular weight alcohols e.g. methanol, ethanol, propanol or butanol.
• the metal salt and hydrophilic colloid are separately dissolved in water and the two solutions mixed.
• the hydrophilic colloid may be dissolved in water at 70-80 C. as a 5% solution. This may then be stirred at 80 C. until the colloid forms a uniform colloidal solution, cooled to about 30 C. and then added to the metal salt solution at 25-30 C. Any further ingredient may then be added and the mixture stirred until it is thoroughly homogenized.
• the etch solution may be any conventional solution of this type provided that it contains no ingredients which are detrimental to the paper and is capable of reacting with the pre-etch solution as defined above.
• Solutions of this type are usually buffered to an intermediate acid pH, for example, in the case of a phosphoric acid etch solution using sodium dihydrogen phosphate, which may or may not but preferably does contain a humectant, e.g. glycerol or other polyhydric alcohol, to prevent the surface drying out too quickly and one or more substances to facilitate wetting of the paper e.g. lower alkanols and/or compatible wetting agents. It is preferred to use an etch solution based on phosphoric acid and/or phosphates, since this is the most frequent type used in lithographic printing.
• an etch solution based on an acid such as oxalic acid, chromic acid, silicic acid, or water-soluble salts thereof, or a water-soluble salt capable of forming an insoluble or sparingly soluble precipitate with the metal of the pre-etch solution, e.g. the following combinations of cations (in the pre-etch) and anions (in the etch) are suitable: Ca++C O Ba++-SO Pb++CrO Zn or Cu +Fe (CN)
• An inherent advantage of the process according to the invention is that it can be used to reproduce images from imaged paper having the characteristics set forth above i.e. it can be used to make copies of pages in periodicals and books.
• a further advantage of the process according to the invention is that the paper surface prior to imaging is capable of receiving a stronger image, due to its inherent oleophilic characteristics, than paper surfaces which are lithographic.
• a series of pre-etch solutions were prepared from various metal salts and hydrophilic colloids.
• the hydrophilic colloid was first dissolved in water at 7080 C. as a 5% by weight solution. This was stirred at 70-80 C. until the colloid had formed a uniform colloidal solution cooled to about 30 C. and then added to an aqueous solution of the metal salt. Further ingredients, in some cases, were added and the mixture stirred until thoroughly homogenized.
• Lissapol N is non-ionic surface active agent derived from ethylene oxide and an alkyl phenol sold by Imperial Chemical Industries Ltd.
• Syton W-20 is a silica aquasol (solids content 15%) sold by Monsanto Chemicals Ltd. 7
• a corresponding number of paper masters of art paper each having a pick resistance of 12A were then imaged with carbon and cotton lithographic typewriter ribbons. Each imaged surface was rubbed with one of the pre-etch solutions and then with a commercial phosphoric acid etch solution having a pH of 5.6-5.8 whilst the pre-etch solution was still wet on the paper.
• the masters were then attached in turn to the cylinder of a commercial off-set duplicator provided with ink and water fountains. The results obtained are given in Table 2.
• hydrophilic colloid is selected from the group consisting of methyl ethyl cellulose, hydroxypropyl methyl cellulose, carboxymethyl cellulose, gum tragacanth, guar gum, gelatin and polyvinyl alcohol.
• the anion of the acidic etch solution is selected from the group consisting of phosphoric acid, oxalic acid, sulphuric acid, chromic acid, silicic acid, acid ferrocyanide and salts thereof.
• the steps consisting Q3 of imaging the surface with an ink receptive, water repellent imaging material, treating the oleophilic surface of the plate with a pre-etch solution having dissolved therein a polyvalent salt of a metal selected from the group consisting of zinc, nickel, calcium, copper, cobalt, iron, lead, magnesium, cadmium, barium, manganese and aluminum in an amount within the range of 2 to by weight, a hydrophilic colloid present in an amount within the range of 0.2 to 5% by weight and inert colloidal solids suspended in the pre-etch solution in an amount within the range of 0.5 to 5% by weight and a surface active agent, and thereafter treating the surface with an acidic etch solution containing an anion which reacts with the metal cation of the pre-etch to form a relatively insoluble precipitate and selected from the group consisting of phosphoric

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• Printing Plates And Materials Therefor (AREA)

Applications Claiming Priority (1)

Publications (1)

Family

ID=10424852

Family Applications (1)

Country Status (7)

Citations (5)

• 0
  • NL NL285785D patent/NL285785A/xx unknown
  • BE BE625188D patent/BE625188A/xx unknown
• 1961
  • 1961-11-28 GB GB42536/61A patent/GB1025842A/en not_active Expired
• 1962
  • 1962-11-08 US US236449A patent/US3247792A/en not_active Expired - Lifetime
  • 1962-11-22 DE DED40338A patent/DE1226600B/de active Pending
  • 1962-11-27 DK DK510062AA patent/DK113504B/da unknown
  • 1962-11-27 CH CH1391162A patent/CH425827A/de unknown

Patent Citations (5)

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