US3012929A - Method of making paper product with glass and other special fibers - Google Patents

Method of making paper product with glass and other special fibers Download PDF

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US3012929A
US3012929A US633497A US63349757A US3012929A US 3012929 A US3012929 A US 3012929A US 633497 A US633497 A US 633497A US 63349757 A US63349757 A US 63349757A US 3012929 A US3012929 A US 3012929A
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fibers
white water
paper
water system
slurry
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Richard T Jackson
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Riegel Paper Corp
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Riegel Paper Corp
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    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21FPAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
    • D21F9/00Complete machines for making continuous webs of paper
    • D21F9/02Complete machines for making continuous webs of paper of the Fourdrinier type

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  • This invention relates to the art of paper making, and more particularly to a new and improved method of making paper which is composed of a substantial portion of long fibers, or fibers of glass or materials having similar characteristics, and to an improved paper product including such fibers.
  • glass fiber papers for example, it is desirable to utilize fibers of relatively great length (not substantially less than one-fourth inch).
  • the glass fibers are of a multi-filament structure, that is, each fiber comprises a plurality or bundle of individual filaments.
  • it is important to maintain the integrity of the fibers i.e., prevent the filaments from separating), and to prevent the long fibers from becoming entangled and forming clots.
  • a slurry of fibers is formed in a heater and transferred to a stufi chest.
  • the slurry is pumped from the stuff chest to a stuff gate, having a flow metering means, such as an orifice, which delivers the slurry at a controlled rate to a refiner, such as a conventional Jordan machine.
  • a refiner such as a conventional Jordan machine.
  • the slurry is delivered to a fan pump, together with a large volume of white water, which greatly increases the dilution of the slurry.
  • the dilute stock is delivered by the fan pump to the head box of a paper making machine, such as a Fourdrinier, where the stock is flowed onto a moving wire to form a web.
  • the water drained from the wire is collected and returned to the white water system, at the intake side of the fan pump, for further use.
  • the improved method of this invention involves adding the special fibers, in a substantially dry state, directlyinto the white water.
  • system of the paper machine advantageously atza point closeito the head box and down-stream from the fan pump of the white water system.
  • the arrangement is such that the fibers are dispersed in copious quantities of water,-to avoid tangling, and are not subjected to suflicient agitation of any kind or other severe treatment .to cause a loss of fiber integrity.
  • the relative percentages by weight of "glass and cellulosic fibers may be 75 percent glass fibers, 25 percent wood or other cellulosic fibers.
  • the cellulosic fibers may be processed in the usual way, and added to the white water system at the fan pump for delivery to the head box.
  • the glass fibers are, in accordance with the invention, handled separately, and are added directly into the white water system, advantageously as close as practicable to the head box.
  • the glass fibers are distributed throughout the copious quan- 3,012,929 Patented Dec. 12, 1961 tities of water, so that tangling and clotting of 'the fibers is unlikely, and the special fibers are not subject to treatment such as will destroy the integrity of the fiber bundles.
  • the invention also includes the provision of an improved paper product which incorporates, in its completed form, glass or other special fibers characterized by their relatively great length and/ or multi-filament structure.
  • the new paper product includes approximately percent glass fiber and 25 percent cellulosic fiber, the glass fiber being of a length not substantially less than one-quarter inch.
  • the numeral 10 designates a conventional beater employed in a paper making system for preparting a slurry of fibers, such as wood fibers, for example.
  • the slurry formed in the heater is transferred through a duct 11 to a stuff chest 12, for temporary storage, after which the slurry is forced, by means of a pump 13, through a duct 14 to a stuff gate '15.
  • the stuff gate 15 may be of a conventional type, and includes a flow metering device, such as a suitable orifice, not specifically indi cated, for delivering a metered flow of the slurry through a duct 16 to a refiner 17.
  • the fibers of the slurry are subjected to such further processing as may be necessary or desirable to render the stock suitable for making paper having desired characteristics.
  • the slurry is delivered from the refiner 17 through a duct :18, to the intake of a fan pump 19.
  • a duct 20 forming part of the White Water .system of the paper machine. Large quantities of water are delivered to the 'fan pump ⁇ 19, through the duct 20, so that the prepared slurry is greatly diluted to the desired consistency .for forming a web.
  • the diluted paper stock is delivered by the fan pump 19, through a duct 21, to the head box 22 of a paper making machine 23.
  • the paper making machine maybe a socalled triangular wire Fourdrinier, for example, or may be a standard or inclined Fourdrinier, including an endless wire screen 24 entrained about spaced rolls 25, 26, respectively, and supported by intermediate rolls 27.
  • the wire 24 may slope upwardly somewhat, as indicated.
  • the stock leaving the refiner 17 is at a consistency of about 35 percent fiber, by dry weight, while the stock entering -the"headlbox 22 maybe at a consistency of 1.5 percent to as little as 0. 05 percent fiber by dry weight.
  • the described system is not entirely satisfactory.
  • the special fiber is added directly into the white water system, where it is quickly dispersed in large quantities of water, sufiicient to maintain the indiv-idual fibers in separated relation and to permit the free flow of the fibers onto the screen 24, in desired orientations and without forming lumps, etc., in the web.
  • the new paper product will include cellulosic and glass or other special fibers in proportions of about 25 percent and 75 percent, respectively, the finished product also including such additives as may be necessary or desirable.
  • the cellulosic fibers may be processed in the usual manner and delivered to the intake of the fan pump 19.
  • the glass or other special fibers are, however, added directly into the white water system, as by means of a feeder system 29 arranged to discharge fibers into the duct 21.
  • the highly dispersed special fibers are mixed with the prepared slurry, to form a diluted stock.
  • the feeder system 29 is arranged to discharge special fibers into the white water duct 21 at a point about three or four feet upstream from the head box 22.
  • the discharge of special fibers into the white water system should take place no earlier than is necessary to effect proper dispersion of the special fibers.
  • it may be possible to discharge the special fibers directly into the head box providing, of course, the design of the head box is such that proper dispersion of the special fibers is elfected.
  • the feeder system 29 for special fibers may be placed at other points in the white water system where it is advantageous to do so.
  • the feeder system 29 includes a glass roving cutter 30, which may be a conventional type, such as manufactured by I. G. Brenner, of Newark, Ohio.
  • the cutter 30 may have as many as eight sets of cutters, of which about three to six may be in use at any one time, while others are being readied for use to maintain continuity of operation.
  • the sets of cutters are arranged to receive glass roving from separate rolls of roving, not-- specifically indicated, each roll having as much as four and one-half miles of roving.
  • Glass fibers passing through the cutter 30 are chopped into fibers of predetermined length, advantageously not substantially less than one-fourth inch, and are discharged onto a moving belt 31.
  • the belt 3 1 carries the cut fibers to a hopper 32, which discharges the fibers directly into the white water system, at a point sufficiently ahead of the point of discharge of the stock onto the Fourdrinier wire 24-to permit adequate dispersion of the added fibers.
  • special fibers as used herein is not restricted to glass or other synthetic fibers, but includes cellulosic and other natural fibers.
  • the product incorporates any fibers of relatively great length and/ or of a multi-filament structure
  • the method of making a paper product in a paper making system comprised of a paper making machine, a circulating White water system, and a pump for conveying white water through the white water system, which method comprises preparing a slurry of processed paper making fibers, introducing the slurry into the circulating white water system to eifeet a substantial dilution of the slurry, thereafter introducing directly into the white water system a substantial quantity, relative to the paper making fibers, of multi-filament synthetic fibers not substantially less than about inch in length and in substantially dry form, said synthetic fibers being introduced into the white water system downstream of the white water pump and not substantially further upstream of the Web-forming portion of the paper machine than is necessary to effect dispersal of the synthetic fibers, providing for the dispersal of said synthetic fibers in the relatively large quantities of white water between the point of introduction thereof into the white water system and the web-forming portion of the paper machine, and flowing the dispersed synthetic fibers together with the mixed slurry and white water onto the web-forming portion

Description

Dec. 12, 1961 R. T. JACKSON 3,012,929
METHOD OF MAKING PAPER PRODUCT WITH GLASS AND OTHER SPECIAL FIBERS Filed Jan. 10, 1957 L- 2..o m :5 2
Stuff Chest I INVENTOR Richard T. Jackson MM y ATTORNE S Beater United States Patent 3,012,929 METHOD OF MAKING PAPER PRODUCT WITH GLASS AND OTHER SPECIAL FIBERS Richard T. Jackson, Phillipsburg, N.J.,.assignor to Riegel Paper Corporation, New York, N.Y., a corporation of Delaware Filed Jan. 10, 1957, Ser. No. 633,497 3 Claims. (Cl. 162-145) This invention relates to the art of paper making, and more particularly to a new and improved method of making paper which is composed of a substantial portion of long fibers, or fibers of glass or materials having similar characteristics, and to an improved paper product including such fibers.
In the manufacture of paper which includes quantities of special fibers, such as glass, substantial difiiculties have been encountered in connection with the control of the special fibers, rendering it difiicult to manufacture paper of the quality desired by conventional paper making procedures. Thus, in some glass fiber papers, for example, it is desirable to utilize fibers of relatively great length (not substantially less than one-fourth inch). The glass fibers are of a multi-filament structure, that is, each fiber comprises a plurality or bundle of individual filaments. In order to make paper of the desired quality, using such fibers, it is important to maintain the integrity of the fibers (i.e., prevent the filaments from separating), and to prevent the long fibers from becoming entangled and forming clots.
In conventional paper making practices, a slurry of fibers is formed in a heater and transferred to a stufi chest. The slurry is pumped from the stuff chest to a stuff gate, having a flow metering means, such as an orifice, which delivers the slurry at a controlled rate to a refiner, such as a conventional Jordan machine. After refining, the slurry is delivered to a fan pump, together with a large volume of white water, which greatly increases the dilution of the slurry. The dilute stock is delivered by the fan pump to the head box of a paper making machine, such as a Fourdrinier, where the stock is flowed onto a moving wire to form a web. The water drained from the wire is collected and returned to the white water system, at the intake side of the fan pump, for further use.
My experience has shown that if special fibers, such as glass or other long or multi-filament fibersare subjected to conventional treatment the fibers will become tangled and clotted, and the integrity of the individual fibers cannot be maintained. Accordingly, the improved method of this invention involves adding the special fibers, in a substantially dry state, directlyinto the white water. system of the paper machine advantageously atza point closeito the head box and down-stream from the fan pump of the white water system. The arrangement is such that the fibers are dispersed in copious quantities of water,-to avoid tangling, and are not subjected to suflicient agitation of any kind or other severe treatment .to cause a loss of fiber integrity.
In the manufacture of paper'incorporating glass fibers, for example, it is advantageous to utilize a stock including the glass fibers, together with cellulosic fibers. Thus, the relative percentages by weight of "glass and cellulosic fibers may be 75 percent glass fibers, 25 percent wood or other cellulosic fibers. In such cases, the cellulosic fibers may be processed in the usual way, and added to the white water system at the fan pump for delivery to the head box. The glass fibers are, in accordance with the invention, handled separately, and are added directly into the white water system, advantageously as close as practicable to the head box. In the white water system, the glass fibers are distributed throughout the copious quan- 3,012,929 Patented Dec. 12, 1961 tities of water, so that tangling and clotting of 'the fibers is unlikely, and the special fibers are not subject to treatment such as will destroy the integrity of the fiber bundles.
The invention also includes the provision of an improved paper product which incorporates, in its completed form, glass or other special fibers characterized by their relatively great length and/ or multi-filament structure. In one if its preferred forms, the new paper product includes approximately percent glass fiber and 25 percent cellulosic fiber, the glass fiber being of a length not substantially less than one-quarter inch.
For a better understanding of the invention, reference should be made to the following more specific description and to the accompanying drawing, which is a simplified schematic representation of a paper making system for carrying out the method of the invention and making'the new product.
'In the drawing, the numeral 10 designates a conventional beater employed in a paper making system for preparting a slurry of fibers, such as wood fibers, for example. The slurry formed in the heater is transferred through a duct 11 to a stuff chest 12, for temporary storage, after which the slurry is forced, by means of a pump 13, through a duct 14 to a stuff gate '15. The stuff gate 15 may be of a conventional type, and includes a flow metering device, such as a suitable orifice, not specifically indi cated, for delivering a metered flow of the slurry through a duct 16 to a refiner 17.
In the refiner 17, which may be a Jordan type for example, the fibers of the slurry are subjected to such further processing as may be necessary or desirable to render the stock suitable for making paper having desired characteristics. The slurry is delivered from the refiner 17 through a duct :18, to the intake of a fan pump 19.
Also connectedto the intake of the fan pump 19 is a duct 20, forming part of the White Water .system of the paper machine. Large quantities of water are delivered to the 'fan pump \19, through the duct 20, so that the prepared slurry is greatly diluted to the desired consistency .for forming a web.
The diluted paper stock is delivered by the fan pump 19, through a duct 21, to the head box 22 of a paper making machine 23. The paper making machine maybe a socalled triangular wire Fourdrinier, for example, or may be a standard or inclined Fourdrinier, including an endless wire screen 24 entrained about spaced rolls 25, 26, respectively, and supported by intermediate rolls 27. The wire 24 may slope upwardly somewhat, as indicated.
Stock is flowed onto the wire 24 from the headbox 22, and water is withdrawn from the stock and is collected in a white water collector 28. The collector 28 is connected to the white water duct 20, so that white water of the system is used over and over, with such excesses thereof as may accumulate being drained offfrom the collector, filtered, if desired, and discharged.
Although this invention is not limited to any specific ranges of stock dilution, as a general rule the stock leaving the refiner 17 is at a consistency of about 35 percent fiber, by dry weight, while the stock entering -the"headlbox 22 maybe at a consistency of 1.5 percent to as little as 0. 05 percent fiber by dry weight. Thus, large quantities of white water are added to the stock at the intake side of the fan pump in order to obtain the proper stock or where long multi-filarnent fibers are desired in the finished product, the described system is not entirely satisfactory. Ihus, the submission of such special fibers to beating and refining results in a shortening of the fibers and/or loss of fiber integrity, and the surviving long fibers tend to tangle and clot and do not flow freely through the stuff gate, for example. Accordingly, in the improved method of the invention, the special fiber is added directly into the white water system, where it is quickly dispersed in large quantities of water, sufiicient to maintain the indiv-idual fibers in separated relation and to permit the free flow of the fibers onto the screen 24, in desired orientations and without forming lumps, etc., in the web. It is contemplated that the new paper product will include cellulosic and glass or other special fibers in proportions of about 25 percent and 75 percent, respectively, the finished product also including such additives as may be necessary or desirable. In the making of this product, the cellulosic fibers may be processed in the usual manner and delivered to the intake of the fan pump 19. The glass or other special fibers are, however, added directly into the white water system, as by means of a feeder system 29 arranged to discharge fibers into the duct 21. In the illustrated process, the highly dispersed special fibers are mixed with the prepared slurry, to form a diluted stock. Advantageously, the feeder system 29 is arranged to discharge special fibers into the white water duct 21 at a point about three or four feet upstream from the head box 22. For best results, the discharge of special fibers into the white water system should take place no earlier than is necessary to effect proper dispersion of the special fibers. Accordingly, in some cases, it may be possible to discharge the special fibers directly into the head box, providing, of course, the design of the head box is such that proper dispersion of the special fibers is elfected. It is also contemplated by the present invention that the feeder system 29 for special fibers may be placed at other points in the white water system where it is advantageous to do so.
Advantageously, the feeder system 29 includes a glass roving cutter 30, which may be a conventional type, such as manufactured by I. G. Brenner, of Newark, Ohio. The cutter 30 may have as many as eight sets of cutters, of which about three to six may be in use at any one time, while others are being readied for use to maintain continuity of operation. The sets of cutters are arranged to receive glass roving from separate rolls of roving, not-- specifically indicated, each roll having as much as four and one-half miles of roving.
Glass fibers passing through the cutter 30 are chopped into fibers of predetermined length, advantageously not substantially less than one-fourth inch, and are discharged onto a moving belt 31. The belt 3 1 carries the cut fibers to a hopper 32, which discharges the fibers directly into the white water system, at a point sufficiently ahead of the point of discharge of the stock onto the Fourdrinier wire 24-to permit adequate dispersion of the added fibers.
Accurate control over the quantity of special fibers added to the white Water system is afforded by controlling the speed of operation of the cutter 30, as well as the number of cutter sets thereof in operation at any time.
It should be understood that the term special fibers as used herein is not restricted to glass or other synthetic fibers, but includes cellulosic and other natural fibers.
Where the product incorporates any fibers of relatively great length and/ or of a multi-filament structure, it may be of advantage to employ theimproved method of this invention by adding such fibers directly into the white water system, without subjecting the fibers to the conventional processing, such as heating and refining. Moreover, in some cases it may be possible to form the paper stock entirely by the addition of dry special fibers into the white water system, without mixing the special fibers with a quantity of prepared slurry. In such cases it may be possible to eliminate many of the conventional components of the paper making system, such as the beater, stuff chest, stuif gate, andrefiner.
Accordingly, reference should be made to the following appended claims in determining the full scope of the invention.
I claim:
1. The method of making a paper product in a paper making system comprised of a paper making machine, a circulating White water system, and a pump for conveying white water through the white water system, which method comprises preparing a slurry of processed paper making fibers, introducing the slurry into the circulating white water system to eifeet a substantial dilution of the slurry, thereafter introducing directly into the white water system a substantial quantity, relative to the paper making fibers, of multi-filament synthetic fibers not substantially less than about inch in length and in substantially dry form, said synthetic fibers being introduced into the white water system downstream of the white water pump and not substantially further upstream of the Web-forming portion of the paper machine than is necessary to effect dispersal of the synthetic fibers, providing for the dispersal of said synthetic fibers in the relatively large quantities of white water between the point of introduction thereof into the white water system and the web-forming portion of the paper machine, and flowing the dispersed synthetic fibers together with the mixed slurry and white water onto the web-forming portion of the paper machine.
2. The method of claim 1, in which the synthetic fibers are glass, the paper making fibers are cellulosic, and the proportions of glass and cellulosic fibers are about and 25% respectively.
3. The method of claim 1, in which the synthetic fibers are introduced into the white water system upstream of the head box of the paper making machine.
References Cited in the file of this patent UNITED STATES PATENTS 1,996,082 Powell Apr. 2, 1935 2,653,870 Kast Sept. 29, 1953 2,692,220 Labino Oct. 19, 1954 2,772,603 Waggoner Dec. 4, 1956 2,810,644 Shearer L. Oct. 22, 1957 FOREIGN PATENTS 497,059 Great Britain Dec. 8, 1938 598,378 Great Britain Feb. 17, 1948 163,886 Australia July 5, 1955 OTHER REFERENCES Fiberglass Products for Papermaking, February 1954; Owens-Corning Fiberglas (pages 11-13 only).

Claims (1)

1. THE METHOD OF MAKING A PAPER PRODUCT IN A PAPER MAKING SYSTEM COMPRISED OF A PAPER MAKING MACHINE, A CIRCULATING WHITE WATER SYSTEM, AND A PUMP FOR CONVEYING WHITE WATER THROUGH THE WHITE WATER SYSTEM, WHICH METHOD COMPRISES PREPARING A SLURRY OF PROCESSED PAPER MAKING FIBERS, INTRODUCING THE SLURRY OF PROCESS PAPER WHITE WATER SYSTEM TO EFFECT A SUBSTANTIAL DILUTION OF THE SLURRY, THEREAFTER INTRODUCING DIRECTLY INTO THE WHITE WATER SYSTEM A SUBSTANTIAL QUANTITY, RELATIVE TO THE PAPER MAKING FIBERS, OF MULTI-FILAMENT SYNTHETIC FIBERS NOT SUBSTANTIALLY LESS THAN ABOUT 1/4 INCH IN LENGTH AND IN SUBSTANTIALLY DRY FORM, SAID SYNTHETIC FIBERS BEING INTRODUCED INTO THE WHITE WATER SYSTEM DOWNSTREAM OF THE WHITE WATER PUMP AND NOT SUBSTANTIALLY FURTHER UPSTREAM OF THE WEB-FORMING PORTION OF THE PAPER MACHINE THAN IS NECESSARY TO EFFECT DISPERSAL OF THE SYNTHETIC FIBERS, PROVIDING FOR THE DISPERSAL OF SAID SYNTHETIC FIBERS IN THE RELATIVELY LARGE QUANTITIES OF WHITE WATER BETWEEN THE POINT OF INTRODUCTION THEREOF INTO THE WHITE WATER SYSTEM AND THE WEB-FORMING PORTION OF THE PAPER MACHINE, AND FLOWING THE DISPERSED SYNTHETIC FIBERS TOGETHER WITH THE MIXED SLURRY AND WHITE WATER ONTO THE WEB-FORMING PORTION OF THE PAPER MACHINE.
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Cited By (18)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3232788A (en) * 1961-06-21 1966-02-01 Owens Corning Fiberglass Corp Surface treatment of attenuated glass
US4118272A (en) * 1977-03-03 1978-10-03 Gaf Corporation Continuous wet-laid process for making high-strength glass fiber mats
USRE31124E (en) * 1970-11-11 1983-01-11 Koninklijke Papierfabrieken Van Gelder Zonen N.V. Reinforced plastics carrier for printed circuits
US4426470A (en) 1981-07-27 1984-01-17 The Dow Chemical Company Aqueous method of making reinforced composite material from latex, solid polymer and reinforcing material
US5407536A (en) * 1994-02-10 1995-04-18 Rhone-Poulenc Inc. Amphoteric surfactants as glass fiber dispersants for the manufacture of uniform glass fiber mats
US5409574A (en) * 1994-02-10 1995-04-25 Rhone-Poulenc Inc. Propoxylated fatty amine ethoxylate surfactants as glass fiber dispersants for the manufacture of uniform glass fiber mats
US5518586A (en) * 1993-09-20 1996-05-21 Georgia-Pacific Resins, Inc. Method of making a high tear strength glass mat
US5914365A (en) * 1997-02-06 1999-06-22 Georgia-Pacific Resins, Inc. Modified urea-formaldehyde binder for making fiber mats
US6251224B1 (en) * 1999-08-05 2001-06-26 Owens Corning Fiberglass Technology, Inc. Bicomponent mats of glass fibers and pulp fibers and their method of manufacture
US6488811B1 (en) 2001-04-30 2002-12-03 Owens Corning Fiberglas Technology, Inc. Multicomponent mats of glass fibers and natural fibers and their method of manufacture
US20050070186A1 (en) * 2003-09-29 2005-03-31 Georgia-Pacific Resins, Inc. Urea-formaldehyde binder composition and process
WO2005040475A1 (en) 2003-10-17 2005-05-06 G-P Gypsum Corporation Interior wallboard and method of making same
US20050202742A1 (en) * 2004-03-12 2005-09-15 Russell Smith Use of pre-coated mat for preparing gypsum board
US20060240236A1 (en) * 2005-04-25 2006-10-26 G-P Gypsum Corp. Interior wallboard and method of making same
US20060249267A1 (en) * 2005-05-09 2006-11-09 Hemant Gupta Shake mechanism for glass mat production line
US20080083522A1 (en) * 2006-10-05 2008-04-10 Georgia-Pacific Chemicals Llc Urea-formaldehyde resin composition and process for making fiber mats
US20080207833A1 (en) * 2007-02-26 2008-08-28 Jeremiah Bear Resin-polyester blend binder compositions, method of making same and articles made therefrom
US20090124151A1 (en) * 2007-05-30 2009-05-14 Georgia-Pacific Chemicals Llc Binder compositions for fiber mats, and fiber mats and articles comprising them

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US1996082A (en) * 1931-08-26 1935-04-02 Johns Manville Mineral wool product and method of making same
GB497059A (en) * 1937-02-10 1938-12-08 Mij Exploitatie Octrooien Nv Improvements in paper
GB598378A (en) * 1944-06-03 1948-02-17 British Thomson Houston Co Ltd Improvements in and relating to glass fibre sheet material
US2653870A (en) * 1949-10-22 1953-09-29 Richard P Kast High-strength paper and method of making
US2692220A (en) * 1951-11-19 1954-10-19 Glass Fibers Inc Method for making glass paper
US2772603A (en) * 1950-09-12 1956-12-04 Owens Corning Fiberglass Corp Fibrous structures and methods for manufacturing same
US2810644A (en) * 1950-02-09 1957-10-22 American Viscose Corp Paper products and method of making the same

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Publication number Priority date Publication date Assignee Title
US1996082A (en) * 1931-08-26 1935-04-02 Johns Manville Mineral wool product and method of making same
GB497059A (en) * 1937-02-10 1938-12-08 Mij Exploitatie Octrooien Nv Improvements in paper
GB598378A (en) * 1944-06-03 1948-02-17 British Thomson Houston Co Ltd Improvements in and relating to glass fibre sheet material
US2653870A (en) * 1949-10-22 1953-09-29 Richard P Kast High-strength paper and method of making
US2810644A (en) * 1950-02-09 1957-10-22 American Viscose Corp Paper products and method of making the same
US2772603A (en) * 1950-09-12 1956-12-04 Owens Corning Fiberglass Corp Fibrous structures and methods for manufacturing same
US2692220A (en) * 1951-11-19 1954-10-19 Glass Fibers Inc Method for making glass paper

Cited By (36)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3232788A (en) * 1961-06-21 1966-02-01 Owens Corning Fiberglass Corp Surface treatment of attenuated glass
USRE31124E (en) * 1970-11-11 1983-01-11 Koninklijke Papierfabrieken Van Gelder Zonen N.V. Reinforced plastics carrier for printed circuits
US4118272A (en) * 1977-03-03 1978-10-03 Gaf Corporation Continuous wet-laid process for making high-strength glass fiber mats
US4426470A (en) 1981-07-27 1984-01-17 The Dow Chemical Company Aqueous method of making reinforced composite material from latex, solid polymer and reinforcing material
US5518586A (en) * 1993-09-20 1996-05-21 Georgia-Pacific Resins, Inc. Method of making a high tear strength glass mat
US5656366A (en) * 1993-09-20 1997-08-12 Georgia-Pacific Resins, Inc. Urea-formaldehyde binder for high tear strength glass mat
US5407536A (en) * 1994-02-10 1995-04-18 Rhone-Poulenc Inc. Amphoteric surfactants as glass fiber dispersants for the manufacture of uniform glass fiber mats
US5409574A (en) * 1994-02-10 1995-04-25 Rhone-Poulenc Inc. Propoxylated fatty amine ethoxylate surfactants as glass fiber dispersants for the manufacture of uniform glass fiber mats
US5914365A (en) * 1997-02-06 1999-06-22 Georgia-Pacific Resins, Inc. Modified urea-formaldehyde binder for making fiber mats
US6084021A (en) * 1997-02-06 2000-07-04 Georgia-Pacific Resins, Inc. Modified urea-formaldehyde binder for making fiber mats
US6251224B1 (en) * 1999-08-05 2001-06-26 Owens Corning Fiberglass Technology, Inc. Bicomponent mats of glass fibers and pulp fibers and their method of manufacture
US6488811B1 (en) 2001-04-30 2002-12-03 Owens Corning Fiberglas Technology, Inc. Multicomponent mats of glass fibers and natural fibers and their method of manufacture
US20050070186A1 (en) * 2003-09-29 2005-03-31 Georgia-Pacific Resins, Inc. Urea-formaldehyde binder composition and process
WO2005040475A1 (en) 2003-10-17 2005-05-06 G-P Gypsum Corporation Interior wallboard and method of making same
US7989370B2 (en) 2003-10-17 2011-08-02 Georgia-Pacific Gypsum Llc Interior wallboard and method of making same
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