US1954799A - Paper-making - Google Patents

Paper-making Download PDF

Info

Publication number
US1954799A
US1954799A US666506A US66650633A US1954799A US 1954799 A US1954799 A US 1954799A US 666506 A US666506 A US 666506A US 66650633 A US66650633 A US 66650633A US 1954799 A US1954799 A US 1954799A
Authority
US
United States
Prior art keywords
paper
zinc sulphide
stock
pigment
pulp stock
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US666506A
Inventor
Howard M Cyr
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
New Jersey Zinc Co
Original Assignee
New Jersey Zinc Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by New Jersey Zinc Co filed Critical New Jersey Zinc Co
Priority to US666506A priority Critical patent/US1954799A/en
Priority to GB9205/34A priority patent/GB419582A/en
Application granted granted Critical
Publication of US1954799A publication Critical patent/US1954799A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21HPULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
    • D21H17/00Non-fibrous material added to the pulp, characterised by its constitution; Paper-impregnating material characterised by its constitution
    • D21H17/63Inorganic compounds
    • D21H17/67Water-insoluble compounds, e.g. fillers, pigments

Definitions

  • This invention relates to the manufacture of paper, and has for its object the provision of certain improvements in paper-making. More particularly, the invention. aims to provide an improved method of incorporating zinc sulphide pigments in paper pulp stock.
  • a zinc sulphide pigment When added to pa per pulp stock, with the object of incorporating the pigment in the paper, it may under certain conditions be stained and discolored during the process of paper manufacture by copper salts and the like resulting from the corrosion of the metal parts of the paper-making machinery.
  • the copper web of the Fourdrinier machine and the copper lining of the beaters are subject to slow corrosion by the acidic materials used in the paper pulp stock. as for example paper makers alum (aluminum sulphate). In consequence of such corrosion, soluble copper compounds are present in the paper pulp stock, and these compounds react with zinc sulphide to form darkcolored substances which stain and discolor the paper.
  • the present invention contemplates the incorporation of zinc sulphide pigments in paper pulp stock under such conditions as to preventresult of my experiments and investigations that the staining and discoloration can be decreased until it is inappreciable by decreasing the time of contact between the pigment and the liquor in the paper pulp stock, and likewise by decreasing the acidity of this liquor.
  • the present invention involves incorporating the zinc sulphide pigment in the paper pulp stock at as short an interval as practicable before the transfer of the stock to the web-forming device of the paper-making machine.
  • the hydrogen ion concentration of the paper pulp stock is so controlled-that its pH value is not lower than about 4.5 when the zinc sulphide pigment is incorporated-therein. If necessary, the hydrogen ion concentration of the paper pulp stock is further adjusted to a pH value not above about 5 prior to the transfer of the stock to the papermaking machine. Inthe preferred practice of copper compound.
  • the pH value of the paper pulp stock is maintained above 5 for the greater part of the time that the zinc sulphide pigment remains in contact with the liquor of the paper pulp stock.
  • the pH value of the stock may be controlled in any appropriate manner, as for example, by regulating the amount of paper maker's 'alum (aluminum sulphate) added thereto.
  • the heater, orother appropriate mixing device used in place of a beater is first flushed out to remove any soluble copper compounds that may be present therein. This operation may be carried out with fresh water or an alkaline solution.
  • the paper pulp stock is then sized in the beater by the addition of alum, or other appropriate siz-- 30 ing agent, in such amount as to establish a pH value not lowerthan about 4.5.
  • the zinc sulphide pigment is mixed intothe stock.
  • the stock is then diluted until its pH value is raised to about 5.0 or preferably higher, either by adding fresh water or by adding recirculated white water with adjusted pH.
  • the zinc sulphide pigment employed has an alkaline reaction, its
  • alkalinity is of assistance in facilitating the estab- 9' lishment of the contemplated pH value.
  • the diluted stock isthen transferred to the web-forming device of a paper-making machine, such as the Fourdrinier machine, which is preferably maintained relatively free from soluble copper compounds by flushing preparatory to use.
  • the incorporation of zinc sulphide pigments in paper increases the opacity of the paper'and likewise its brightness and whiteness. Due to the high refractive index of zinc sulphide pigments, 9 the opacity of papers containing them is retained when the papers are oiled or waxed or printed or calendered, which operations normally decrease to a substantial extent the opacity of both unfilled papers and papers containing fillers with a low refractive index. Furthermore, zinc sulphide pigments do not materially decrease the strength of the paper, when added in the amounts contemplated by the present invention, say from 1 to 10% by weight on the dry-weight of the cellulosic material in the paper pulp stock.
  • zinc sulphide pigments tend when incorporated in paper in the amounts contemplated by the invention to render the strength of the paper more permanent, as determined by folding, Mullen or tear tests. Moreover, paper containing a zinc sulphide pigment does not deteriorate in mechanical properties so readily as do papers of the same type that do not contain a zinc sulphide pigment.
  • Pigment zinc sulphide consisting essentially of zinc sulphide
  • Pigment zinc sulphide may be used with advantage where a high concentration of the pigment is desired.
  • Other pigments containing or consisting in part of zinc sulphide may be used, such as the ordinary lithopones (composed of mixtures in various proportions of zinc sulphide and barium sulphate), the calcium-base lithopones (composed of mixtures in various proportions of zinc sulphide and calcium sulphate), and lithopone-like pigments (composed, for example, of zinc sulphide and an alkaline earth metal carbonate).
  • zinc sulphide pigment is intended to include not only substantially pure zinc sulphide in pigment form, but also ordinary lithopones, calcium base lithopones, lithopone-like pigments, and in general all pigments containing a substantial proportion of zinc sulphide.

Landscapes

  • Chemical & Material Sciences (AREA)
  • Inorganic Chemistry (AREA)
  • Paper (AREA)

Description

Patented Apr. 17, 1934 UNITED STATES PAPER-MAKING Howard M. Cyr, Palmerton, Pa., assignor to The New JerseyZinc Company, New York, N. Y., a corporation of New Jersey No Drawing. Application April 17, 1933, Serial No. 666,506
11 Claims. (01. 92-721 This invention relates to the manufacture of paper, and has for its object the provision of certain improvements in paper-making. More particularly, the invention. aims to provide an improved method of incorporating zinc sulphide pigments in paper pulp stock.
When a zinc sulphide pigment is added to pa per pulp stock, with the object of incorporating the pigment in the paper, it may under certain conditions be stained and discolored during the process of paper manufacture by copper salts and the like resulting from the corrosion of the metal parts of the paper-making machinery. Thus, the copper web of the Fourdrinier machine and the copper lining of the beatersare subject to slow corrosion by the acidic materials used in the paper pulp stock. as for example paper makers alum (aluminum sulphate). In consequence of such corrosion, soluble copper compounds are present in the paper pulp stock, and these compounds react with zinc sulphide to form darkcolored substances which stain and discolor the paper. a
The present invention contemplates the incorporation of zinc sulphide pigments in paper pulp stock under such conditions as to preventresult of my experiments and investigations that the staining and discoloration can be decreased until it is inappreciable by decreasing the time of contact between the pigment and the liquor in the paper pulp stock, and likewise by decreasing the acidity of this liquor.
Based on the foregoing discoveries, the present invention involves incorporating the zinc sulphide pigment in the paper pulp stock at as short an interval as practicable before the transfer of the stock to the web-forming device of the paper-making machine. In addition, the hydrogen ion concentration of the paper pulp stock is so controlled-that its pH value is not lower than about 4.5 when the zinc sulphide pigment is incorporated-therein. If necessary, the hydrogen ion concentration of the paper pulp stock is further adjusted to a pH value not above about 5 prior to the transfer of the stock to the papermaking machine. Inthe preferred practice of copper compound. I have further 'foundas athe invention the pH value of the paper pulp stock is maintained above 5 for the greater part of the time that the zinc sulphide pigment remains in contact with the liquor of the paper pulp stock. The pH value of the stock may be controlled in any appropriate manner, as for example, by regulating the amount of paper maker's 'alum (aluminum sulphate) added thereto.
In carrying out the invention, it is now my preferred practice to effect simultaneous-control of the acidity of the liquor in the paper pulp stock, and of the duration of contact between the zinc sulphide pigment and. the liquor together with a control of the amount of copper compounds present. In this preferred practice of the invention, the incorporation of the zinc sulphide pigment in the paper pulp stock is carried out as follows:
The heater, orother appropriate mixing device used in place of a beater, is first flushed out to remove any soluble copper compounds that may be present therein. This operation may be carried out with fresh water or an alkaline solution. The paper pulp stock is then sized in the beater by the addition of alum, or other appropriate siz-- 30 ing agent, in such amount as to establish a pH value not lowerthan about 4.5. Just before dumping the stock from the beater the zinc sulphide pigment is mixed intothe stock. The stock is then diluted until its pH value is raised to about 5.0 or preferably higher, either by adding fresh water or by adding recirculated white water with adjusted pH. In cases where the zinc sulphide pigment employed, has an alkaline reaction, its
alkalinity is of assistance in facilitating the estab- 9' lishment of the contemplated pH value.- The diluted stock isthen transferred to the web-forming device of a paper-making machine, such as the Fourdrinier machine, which is preferably maintained relatively free from soluble copper compounds by flushing preparatory to use.
The incorporation of zinc sulphide pigments in paper increases the opacity of the paper'and likewise its brightness and whiteness. Due to the high refractive index of zinc sulphide pigments, 9 the opacity of papers containing them is retained when the papers are oiled or waxed or printed or calendered, which operations normally decrease to a substantial extent the opacity of both unfilled papers and papers containing fillers with a low refractive index. Furthermore, zinc sulphide pigments do not materially decrease the strength of the paper, when added in the amounts contemplated by the present invention, say from 1 to 10% by weight on the dry-weight of the cellulosic material in the paper pulp stock. On the contrary, zinc sulphide pigments tend when incorporated in paper in the amounts contemplated by the invention to render the strength of the paper more permanent, as determined by folding, Mullen or tear tests. Moreover, paper containing a zinc sulphide pigment does not deteriorate in mechanical properties so readily as do papers of the same type that do not contain a zinc sulphide pigment.
Various forms of zinc sulphide pigment may be used in paper making. Pigment zinc sulphide, consisting essentially of zinc sulphide, may be used with advantage where a high concentration of the pigment is desired. Other pigments containing or consisting in part of zinc sulphide may be used, such as the ordinary lithopones (composed of mixtures in various proportions of zinc sulphide and barium sulphate), the calcium-base lithopones (composed of mixtures in various proportions of zinc sulphide and calcium sulphate), and lithopone-like pigments (composed, for example, of zinc sulphide and an alkaline earth metal carbonate). In the appended claims, the term zinc sulphide pigment is intended to include not only substantially pure zinc sulphide in pigment form, but also ordinary lithopones, calcium base lithopones, lithopone-like pigments, and in general all pigments containing a substantial proportion of zinc sulphide.
I claim:
1. In the manufacture of paper, incorporating zinc sulphide pigment in paper pulp stock at such stage in the paper-making process that the zinc sulphide pigment is in contact with the liquor of the stock for as short a period of time as practicable.
2. In the manufacture of paper, incorporating zinc sulphide pigment in paper pulp stock, and thereafter transferring thepaper pulp stock to the web-forming device of a paper-making machine as promptly as practicable so as to reduce to a minimum the time of contact of the zinc sulphide pigment with the liquor of the stock.
3. In the manufacture of paper, incorporating zinc sulphide pigment in paper pulp stock while maintaining the liquor of the stock at a pH value not lower than 4.5 for such time as the zinc sulphide pigment remains in contact therewith.
4. In the manufacture of paper, incorporating zinc sulphide pigment in paper pulp stock while maintaining the liquor of the stock at a pH value above 5 for such time as the zinc sulphide pigment remains in contact therewith.
5. In the manufacture of paper, incorporating zinc sulphide pigment in paper pulp stock at such stage in the paper-making process that the zinc sulphide pigment is in contact with the liquor of the stock for as short a period of time as practicable, and maintaining the liquor of the stock at a pH value not lower than 4.5 for such time as the zinc sulphide pigment remains in contact therewith.
6. In the manufacture of paper, incorporating zinc sulphide pigment in paper pulp stock at such stage in the paper-making process that the zinc sulphide pigment is in contact with the liquor of the stock for as short a period of time as practicable, and maintaining the liquor of the stock at a pH value above 5 for such time as the zinc sulphide pigment remains in contact therewith.
7. In the manufacture of paper, the steps of mixing paper pulp stock with an appropriate sizing agent under such control of the hydrogen ion concentration of the liquor of the stock that its pH value is not lower than about 4.5, incorporating zinc sulphide pigment in the resulting sized paper'pulp stock, then diluting the paper pulp stock to the desired consistency for paper making with adjustment of the hydrogen ion concentration thereof to a pH value not lower than about 5, and thereafter making paper therefrom.
8. In the manufacture of paper, the steps of incorporating zinc sulphide pigment in paper pulp stock with such control of the hydrogen ion concentration that the pH value of the stock is not lower than about 4.5, .and thereafter utilizing said paper pulp stock with a pH value not lower than 5 in making paper.
9. In the manufacture of paper, the steps of incorporating zinc sulphide pigment in paper pulp stock with adjustment of the hydrogen ion concentration thereof to a pH value not lower than about 4.5, and thereafter transferring the paper pulp stock with a pH value not lower than about 5 to the web-forming device of a paper-making machine.
10. In the manufacture of paper, the steps of incorporating zinc sulphide pigment in paper pulp stock with such control of the hydrogen ion concentration that the pH value of the stock is not lower than about 4.5, the amount of zinc sulphide pigment being from 1 to 10% by weight on the cellulosic content of the pulp, and thereafter transferring the paper pulp stock with a pH value not lower than about 5 tothe web-forming device of a paper-making machine.
11. In the manufacturing of paper, the steps of mixing paper pulp stock with an appropriate sizing agent in a beater under such control of the hydrogen ion concentration that the pH value of the stock is not lower than about 4.5, incorporating zinc sulphide pigment in the resulting paper pulp stock immediately preceding its discharge from the beater, then diluting the stock to the desired consistency for paper-making with adjustment of the hydrogen ion concentration thereof to a pH value not lower than about 5, and thereafter transferring the pulp to the web-forming device of a paper-making machine.
HOWARD M. CYR.
US666506A 1933-04-17 1933-04-17 Paper-making Expired - Lifetime US1954799A (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
US666506A US1954799A (en) 1933-04-17 1933-04-17 Paper-making
GB9205/34A GB419582A (en) 1933-04-17 1934-03-23 Paper-making

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US666506A US1954799A (en) 1933-04-17 1933-04-17 Paper-making

Publications (1)

Publication Number Publication Date
US1954799A true US1954799A (en) 1934-04-17

Family

ID=24674350

Family Applications (1)

Application Number Title Priority Date Filing Date
US666506A Expired - Lifetime US1954799A (en) 1933-04-17 1933-04-17 Paper-making

Country Status (2)

Country Link
US (1) US1954799A (en)
GB (1) GB419582A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100390907C (en) * 2002-05-31 2008-05-28 美蓓亚株式会社 Force motor with increased proportional stroke

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100390907C (en) * 2002-05-31 2008-05-28 美蓓亚株式会社 Force motor with increased proportional stroke

Also Published As

Publication number Publication date
GB419582A (en) 1934-11-14

Similar Documents

Publication Publication Date Title
US2875045A (en) Alum containing antioxidant and manufacture of sized paper therewith
EP0457822B1 (en) Paper manufacturing process, and papers obtainable by means of that process
JPH04503536A (en) Paper manufacturing method and paper obtained by the method
EP0561828A1 (en) Paper and a method of paper manufacture.
US5711799A (en) Acid tolerant calcium carbonate composition and uses therefor
US2395992A (en) Mineral-coated printing paper
US2924549A (en) Paper containing an organic fluorescent dye
US2222199A (en) Pigmented paper and process of making same
US1913329A (en) Filled surface paper and process of making same
US2935437A (en) Method of making a pigment-filled paper
US1954799A (en) Paper-making
US2192488A (en) Method of making paper
US2322185A (en) Process for making paper
US2033452A (en) Process for the chemical stabilization of paper and product
US3576710A (en) Brightening of white water sludge
US2173167A (en) Paper and method of making the same
US1954800A (en) Paper-making
US3190789A (en) Calcium silicate-filled paper
US1808068A (en) Manufacture of paper
US2106709A (en) Paper and process for the manufacture of paper
US2056209A (en) Paper manufacture
US2077393A (en) Paper manufacture
CA1075944A (en) Filled paper
US2208574A (en) Paper manufacture
US2153697A (en) Dyed paper and process of making the same