US1532083A - Process of and apparatus for making fiber boards - Google Patents

Process of and apparatus for making fiber boards Download PDF

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US1532083A
US1532083A US363990A US36899020A US1532083A US 1532083 A US1532083 A US 1532083A US 363990 A US363990 A US 363990A US 36899020 A US36899020 A US 36899020A US 1532083 A US1532083 A US 1532083A
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fibers
channel
water
chambers
foraminous
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John K Shaw
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C F DAHLBERG
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C F DAHLBERG
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    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21FPAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
    • D21F11/00Processes for making continuous lengths of paper, or of cardboard, or of wet web for fibre board production, on paper-making machines
    • D21F11/02Processes for making continuous lengths of paper, or of cardboard, or of wet web for fibre board production, on paper-making machines of the Fourdrinier type
    • D21F11/04Processes for making continuous lengths of paper, or of cardboard, or of wet web for fibre board production, on paper-making machines of the Fourdrinier type paper or board consisting on two or more layers

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  • This invention relates to a process of and an apparatus for interlacing fibers preparatory to making fiber boards, and has for its object to provide a method and a means which will be more efficient in action and less expensive to operate than those heretofore proposed.
  • 1 indicates any suitable tank for holding the stock consisting of water and cooked fibers
  • 2 the bottom of said tank, 3 an inclined 'false'bottom located above the bottom 2
  • 4' a roll or drum near the lower end of said false bottom 3
  • 5 a plurality of supporting rolls
  • 6 a guide and compression roll adjustable on the slide, or other movable means
  • 7 a guide roll similar to the roll 4
  • 9 a guide and tensioning roll adjustable on the means 10.
  • Passing over the rolls just mentioned is the endless foraminous belt or surface 11, conveniently made of wire cloth, and having the oppositely moving portions or runs M12 2 and 13.
  • the water outlet 15 provided with the controlling means or gate 16 which may be suitably manipulated as by the handle or other device 17.
  • the controlling means or gate 16 which may be suitably manipulated as by the handle or other device 17.
  • Said belt 18 also passes over the compression and guide roll coacting with the compression roll 6, and adjustably mounted on the movable means 26.
  • 27 represents a-tension and guide roll, adjustably mohnted on the means 28, and 29 an outlet for the water passing through the belt 18,
  • 32 and 33 represent suitable Water seals made of flexible material for the belts 11 and 18 respectively.
  • 35 represents a channel or passage for water and fibers which may be maintained at any desired hydrostatic head 36, 37 an opening from the channel35 into the tank space, or chamber 38, and 39 a top or parti t-ion separating said chamber space .38 from the remainder of the tank.
  • 40 represents a second channel for water and pulp fibers, 41 the head thereof, 42 an. opening from said channel into the tank chamber or space 43, and 44 a partition which with the partition 39 serves to separate said space43 from the rest of the tank.
  • Suitable openings 53 controlled by the members 54 serve to permit the water entering the drum to escape.
  • the fibers 1n the space 43 constitute a third mass of fibers which are interlaced and entangled with each other, as well as with each of said, first named masses.
  • the mass of fibers are carried through the opening 75 between the compression or compacting rolls 6 and An.
  • important feature of this invention resides not only in being able to thus interlace, or. entangle, the'fibers in the'body t 'portions of the sheet. That is to say, I may feed to the channel 35, one kind of fibers, which may be relatively short or more expensive fibers than are those fed to the channel 40, and I may feed to the channel 45,the
  • I may feed a totally different classof fibers.
  • I may provide as many channels 35,. 40 and 45, as there are different characters of fibersin the finished board, and I may place in the first channel 35 and in the last channel 45 any characters of fibers I desire, whereupon the finished board will be provided with an outer layer 77 corresponding to the fibers that are fed to the channel 35, with another outer layer 78 corresponding to the fibers that are fed to the channel 45, and with one or more intermediate layers 79 corresponding to the character of the fibers which are fed. to the channel 40 and to any other channels which may be located intermediate of the channels 35 and 45..
  • the v apparatus would have to be correspondingly anged to accommodate the same.
  • the important feature to be emphasized in this invention is the fact that no matter how many kinds of fibers, or how man layers of fibers that are present in the finislied board, the fibers of each layer will be interlaced or entangled with the fibers of its adjacent layer, so that the board will not consist of separate and distinct layers, as is common in ordinary fiber boards, and somewhat like the leaves of a book, that can be peeled off, but its body portion will consist of fibers that arefirmly interwoven, and its outer layers will be firmly interwoven with said body portion.
  • I amthus enabled to produce a fiber board or sheet interwoven throughout and having comparatively inexpensive fibers on its interior and comparatively expensive fibers on its exterior, so that a highly ornamental appearance can be imparted to the finished product at a minimum of expense.
  • the process is facilitated by the fact that the openings 37, .42 and 47 are of a less area than are the spaces 38, 43 and 48 into which the fibers are led.
  • the openings 37, .42 and 47 are of a less area than are the spaces 38, 43 and 48 into which the fibers are led.
  • v fibers must first pass through the openings at a relatively high velocity and in a comparatively close relation to each other;
  • I further prefer to permit a very large proportion of t e water, say 90% of the same, to escap, through the opening 15, while a very much smaller proportion, say 10% escapes through the opening 29.
  • the gates 16 and 30 are conveniently manipulated to efi'e'ct this division of the water, while maintaining the desired proper steady flow through the surfaces 13 and 18 to produce the desired results. But, of course, the proportions of water that escape through the two openings mentioned may be Widely varied according .to the results sought in the finished board.
  • the rolls 6 and 25 are readily adjusted by the means illustrated to produce any desired compression in the openings 7 5 be tween said rolls, so that the fiber board may be given any desired degree of porosity.
  • the fiber board may be given any desired degree of porosity.
  • relatively large fibers inthe channel 40, and relatively fine fibers in the channels 35 and 45 I am enabled to control the air spaces in the body of the board, and thereby to control its heat insulating qualities.
  • I can dye the fibers of one or more layers in colors which Wlll contrast with they natural or dyed colors of the other layers.
  • the heads 36,41, and 46 of the liquid in the channels 35, 40 and 45 are so maintained that there will be a minimum tendenoy of liquid to flow between the chambers or spaces 38, 43 and 48.
  • the pressures of the liquid in the last mentioned chambers are maintained as nearly equal as possible, and thus a minimum tendency of the fibers to mix in the said spaces is secured.
  • the pockets 81, 82 and 83 at the bottoms of the channels 35, 40 and 45 respectively serve to catch the tangled knots or masses of fibers in a sort of churning action, which loosens'up said masses to a greater or less extent, and facilitates their disintegration and the ultimate straightening out of the fibers after leaving ,said channels.
  • a fiber board the combination of a plurality of movable foraminous surfaces; aplurality of separated channels for floating different kinds of fibers separately to said surfaces; and
  • a machine for making a fiber board the combination of an endless belt foraminous surface; a second endless belt foraminous surface; chambers adapted to float fibers to said surfaces; means to prevent the fibers in one chamber from mixing with the fibers in the adjoining chamber; means for exerting different hydrostatic pressures -in said chambers; means for feeding fibers to said chambers; and means causing said surfaces to compact-the mass of fibers fed thereto, substantiall as described.

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  • Nonwoven Fabrics (AREA)

Description

March 31. 1925.
J.K.SHAW
PROCESS OF AND APPARATUS FOR MAKING FIBER BOARDS Filed March 26, 3 Sheets-Sheet 1 1,532,083 J. K. SHAW PROCESS OF AND APPARATUS FOR MAKING FIBER BOARDS Filed March 26, 1920 3 Sheets-Sheet 2 arch 31. 1925.
March 31. 1925. 1,532,083
7 J. K. SHAW PROCESS OF AND APPARATUS FOR MAKING FIBER BOARDS Patented Mar. 31, 1925.
W rren stares JOHN K. SHAW, OF MINNEAPOLIS, MINNESOTA, ASSIGNOR- TO C. F. DAHLBERG, OF
' ST. PAUL, MINNESOTA.
PROCESS OF AND APPARATUS FOR MAKING FIBER BOARDS.
Application filed March 26, 1920. Serial No, 368,990.
To all whom it may concern: 7
Be it known that I, JOHN K. SHAW, a citizen of the United States, residing at Minneapolis, in the county of Hennepin and State of Minnesota, have invented certain new and useful Improvements in Processes of and Apparatus for Making Fiber Boards; and I do hereby declare the following to be a full, clear, and exact description of the invention, such as will enable others skilled in the art to which it appertains to make and use the same.
This invention relates to a process of and an apparatus for interlacing fibers preparatory to making fiber boards, and has for its object to provide a method and a means which will be more efficient in action and less expensive to operate than those heretofore proposed.
lVith these and other objects in View the invention: consists in the novel steps and combinations of steps constituting the process, and in the novel parts, and combinations of parts constituting the apparatus, all as will'be more fully hereinafter disclosed and particularly pointed out in the claims.
Referringto the accompanyin drawings forming a part of this specification, in
' of a fiber board made in'accordance with this invention. I
Referring to Figure '1, 1 indicates any suitable tank for holding the stock consisting of water and cooked fibers, 2 the bottom of said tank, 3 an inclined 'false'bottom located above the bottom 2, 4' a roll or drum near the lower end of said false bottom 3, 5 a plurality of supporting rolls, 6 a guide and compression roll adjustable on the slide, or other movable means 7, 8 a guide roll similar to the roll 4, and 9 a guide and tensioning roll adjustable on the means 10. Passing over the rolls just mentioned is the endless foraminous belt or surface 11, conveniently made of wire cloth, and having the oppositely moving portions or runs M12 2 and 13.
Between the runs 12 and 13 is located the water outlet 15, provided with the controlling means or gate 16 which may be suitably manipulated as by the handle or other device 17. Coacting with the foraminous surface or belt 11, and in close proximity thereto, as regards one portion thereof, is the foraminous belt 18, passingover and around the series of guide rolls 19, 20, 21,
22, 23, and 24. Said belt 18 also passes over the compression and guide roll coacting with the compression roll 6, and adjustably mounted on the movable means 26. 27 represents a-tension and guide roll, adjustably mohnted on the means 28, and 29 an outlet for the water passing through the belt 18,
controlled bythe gate 30 and adjustable through the handle 31. 32 and 33 represent suitable Water seals made of flexible material for the belts 11 and 18 respectively.
35 represents a channel or passage for water and fibers which may be maintained at any desired hydrostatic head 36, 37 an opening from the channel35 into the tank space, or chamber 38, and 39 a top or parti t-ion separating said chamber space .38 from the remainder of the tank. 40 represents a second channel for water and pulp fibers, 41 the head thereof, 42 an. opening from said channel into the tank chamber or space 43, and 44 a partition which with the partition 39 serves to separate said space43 from the rest of the tank. ,45 represents a third channel for water and fibers having a head 46, 47 an opening into the tank chamber space- 48, and 49 a partition coactingwith the partition 44 to segregate said space 48 from the remainder oft-he tank In the somewhat modified form of the invention shown in Figure 2, the parts are similar to those just described, except, in stead of the endless belt form of fora-minous surface 18, I have substituted the hollow roll form of foraminous surface 50,
supported on the drum members 51, and rotating on the axis 52. Suitable openings 53 controlled by the members 54 serve to permit the water entering the drum to escape.
The operation of this machine will be understood from what follows It is preferred to use long fibers, but of course fibers of any usual length may be employed. By reason of the irection of flow of the water through the chambers 38, 43, and 48, and by reason of the natural tendency of the flowing water to laterally separate saidfibers, the latter will be brought into positions more or less parallel to each other, and more or less perpendicular to the line of travel of the surface 13, while at the same time, all of said fibers will occupy positions more or less staggered with relation to their neighbors as shown. Accordingly, a large percentage. of theforward ends 61 of said fibers will first contact with said surface 13, and will be carried along by the belt from the positions shown in Figure 3, to those shown in Figure 4, for the rear ends 62 of said fibers will have lagged behind the front ends 61, in the water, so that the front row of said fibers assumes a somewhat curved or bentshape. The second row, or those fibers 63 immediately following, and which have not reached the surface 13, but havereached the rearends 62 of the fibers 60, are now forced by the oncoming water, to contact at their forward ends a ainst the curved fibers 60. And, as said fibers 63, originally, due totheir parallel positions, as shown at 63 in Figure 3, were more or less staggered-or 'interlaced'with the fibers 60 before the latter became curved, it is evident'that'this interlacing or entanglin action between the fibers 60 and 63 will enhanced or in creased by the oncoming water after, said curvature takes place.
It results from the 'actions just described that said fibers 63 become themselves more or less curved, as indicated in Figure 4, due.
more compactnextto'the'wire than away from/it. Thismass is carried through; the
to the transverse movement of the fibers 60, and that a third row of fibers 64 also become interlaced or staggered with the fibers and 63 that have preceded said fibers 64. I
- Itthus results that, owing to the'fioating of the fibers into parallel, interlaced-or staggered positions, and in a direction transverse to the traveling surface 13, the entanglement of the fibers is continuous between-successive rows; and the pressuremf'the water causes the whole to be very loosely assembled in their interlaced positions 'on said surface, thus forming an open mass of fibers opening roanwjam space 43, with one or morepartially curved .and partially entanthe sheet, but also in bein able to va -kind, size and class, of
and entangled with the layers on the belt,
and the process of entanglement and massing proceeds as'before. In the meantime, layers of fibers in all respects similar to the layers 60, 63 and 64 are interlaced, entangled and massed on the travelin belt 18 from the space orch'amber 48. ThlS second mass of fibers are carried through the opening 71 by the belt 18, in .a condition similar to the first mentioned mass that passes the opening 70, and the fibers in the space 43 interlace, and become entangled With said second mass in a manner similar to that described in connection with said first named mass.
The result is, owing to these parallel and staggered relations, the fibers 1n the space 43, constitute a third mass of fibers which are interlaced and entangled with each other, as well as with each of said, first named masses.
As a result of the foregoing en anglements of the various fibers andthe motion of the surfaces 13'and 18, the mass of fibers are carried through the opening 75 between the compression or compacting rolls 6 and An. important feature of this invention resides not only in being able to thus interlace, or. entangle, the'fibers in the'body t 'portions of the sheet. That is to say, I may feed to the channel 35, one kind of fibers, which may be relatively short or more expensive fibers than are those fed to the channel 40, and I may feed to the channel 45,the
fibers in di erentsameclass of fibers as are fed to the channel 35, or I may feed a totally different classof fibers. In other words, I may provide as many channels 35,. 40 and 45, as there are different characters of fibersin the finished board, and I may place in the first channel 35 and in the last channel 45 any characters of fibers I desire, whereupon the finished board will be provided with an outer layer 77 corresponding to the fibers that are fed to the channel 35, with another outer layer 78 corresponding to the fibers that are fed to the channel 45, and with one or more intermediate layers 79 corresponding to the character of the fibers which are fed. to the channel 40 and to any other channels which may be located intermediate of the channels 35 and 45.. Of course, if there is more than one intermediate channel such as 40, then the v apparatus would have to be correspondingly anged to accommodate the same. But, the important feature to be emphasized in this invention is the fact that no matter how many kinds of fibers, or how man layers of fibers that are present in the finislied board, the fibers of each layer will be interlaced or entangled with the fibers of its adjacent layer, so that the board will not consist of separate and distinct layers, as is common in ordinary fiber boards, and somewhat like the leaves of a book, that can be peeled off, but its body portion will consist of fibers that arefirmly interwoven, and its outer layers will be firmly interwoven with said body portion. I amthus enabled to produce a fiber board or sheet interwoven throughout and having comparatively inexpensive fibers on its interior and comparatively expensive fibers on its exterior, so that a highly ornamental appearance can be imparted to the finished product at a minimum of expense.
I do not wish to be limited to any particular character of fibers, for my invention is applicable to fibers in general. It is only necessary to float the fibers in such a manner as to get them into parallel and staggered positions as indicated in Figure 3, and to then entangle or interlace them as is illustrated in Figure 4. c
The process is facilitated by the fact that the openings 37, .42 and 47 are of a less area than are the spaces 38, 43 and 48 into which the fibers are led. In other Words, the
v fibers must first pass through the openings at a relatively high velocity and in a comparatively close relation to each other;
and they are then immediately released into a wider space, where they take on a lesser velocity, and naturally, spread out as they pass along with the water, thus assuming the parallel relations indicated in Figure 3.
I further prefer to permit a very large proportion of t e water, say 90% of the same, to escap, through the opening 15, while a very much smaller proportion, say 10% escapes through the opening 29. The gates 16 and 30 are conveniently manipulated to efi'e'ct this division of the water, while maintaining the desired proper steady flow through the surfaces 13 and 18 to produce the desired results. But, of course, the proportions of water that escape through the two openings mentioned may be Widely varied according .to the results sought in the finished board.
The rolls 6 and 25 are readily adjusted by the means illustrated to produce any desired compression in the openings 7 5 be tween said rolls, so that the fiber board may be given any desired degree of porosity. In fact, by using relatively large fibers inthe channel 40, and relatively fine fibers in the channels 35 and 45, I am enabled to control the air spaces in the body of the board, and thereby to control its heat insulating qualities.
In the same way, by using one character materials as distinct as cows hair, asbestos and: mineral wool. I am also enabled to have one or more layers waterproofed while one, or more other layers are fireproofed,
or I can dye the fibers of one or more layers in colors which Wlll contrast with they natural or dyed colors of the other layers.
The heads 36,41, and 46 of the liquid in the channels 35, 40 and 45 are so maintained that there will be a minimum tendenoy of liquid to flow between the chambers or spaces 38, 43 and 48. In. other Words, the pressures of the liquid in the last mentioned chambers are maintained as nearly equal as possible, and thus a minimum tendency of the fibers to mix in the said spaces is secured.
The pockets 81, 82 and 83 at the bottoms of the channels 35, 40 and 45 respectively serve to catch the tangled knots or masses of fibers in a sort of churning action, which loosens'up said masses to a greater or less extent, and facilitates their disintegration and the ultimate straightening out of the fibers after leaving ,said channels. It will now be clear that by placing the traveling foraminous surfaces 13 and 18 directly across the straight line paths of travel of the fibers after the latter have assumed their parallel and staggered positions, I am enabled to produce a much more pronounced interlacing effect between the fibers than has heretofore been possible.
It will furtherbe clear that the process of causing the fibers to assume their said parallel and staggered positions is facilr tated by the restricted orifices such as 37,, 42 and 47, by the pockets such as 81, 82 and 83, and especially by the relatively wide chambers or spaces such as 38, 43, and 48 through which the fibers travel in substan tially straight paths for a considerable distance before being caught by said traveling surfaces 13 and 18. In fact,'after being relatively squeezed through an opening such as 37 and subjected to a relatively high velocity in said opening, the fibers are suddenly subjected to the action of the more slowly moving water in the space or chamber 38, and to forces acting at right angles to said path, thus opening out the fibers or causing individual fibers to laterally separate, while moving toward said surfaces.
It is obvious that those skilled in the art may vary the details of the construction as well as the details of the process, without departing from the spirit of the invention,
and therefore, I do not wish to .be' limited to the above disclosure except as may be re quired by the claims.
What I claim is i 1. The process of interlacing fibers during the manufacture of fiber. sheets which consists in passing said fibers through a restricted opening, then floating said fibers into a larger chamberin a direction transverse to the line of'travel of a foraminous surface; and causing the floating fibers to be carried by said [surface in a direction transverse to their path of flotation, substantially as described-.-
2. The process of making a fiber board which consists in imparting to said fibers a relatively high velocity in a restricted passage, and floating fibers into a largerchamber transversely of the line (if travel of a foraminous surface; causing said fibers to be carried by said surface transversely of the line of flotation of said fibers; and compacting the mass of fibers on said surface into the desired board, substantially as described. I
3. The process of making fiber sheets which consists in floating fibers through restricted passages into relatively large chameach other, which consists in floating one set-of fibers from a restricted passage into a relatively larger chamber, and transversely of the line of travel of, and onto a travelling foraminous surface; floating a second set-of fibers onto said first mentioned fibers while the latter are in motion; floating a third set of fibers onto a second traveling 'foraminous surface floating other fibers onto said third set of fibers while the latter are in motion; and compacting all of said fibers into the desired board, substantially as described.
5. In a machine for makin a fiber board the combination of a plurality of movable foraminous surfaces; aplurality of separated channels for floating different kinds of fibers separately to said surfaces; and
means for maintaining substantially the same hydrostatic pressure in eacli channel,
substantially as described.
6. In a machine for making a fiber board of layers of interlaced fibers, the, combination-of a plurality of movable foraminous surfaces; chambers in which said surfaces are located; and restricted channels communicating with said chambers, substantially as described.
'7. In a machine-for making a fiber board of layers of interlaced fibers, the combination of a plurality of movable foraminous surfaces; chambers extending in directions transverse to, and in which said surfaces are located; and restricted channels 'hav ing openings communicating with said chambers, substantially as described.
8. In a machine for making a fiber board, the combination of an endless belt foraminous surface; a second endless belt foraminous surface; chambers adapted to float fibers to said surfaces; means to prevent the fibers in one chamber from mixing with the fibers in the adjoining chamber; means for exerting different hydrostatic pressures -in said chambers; means for feeding fibers to said chambers; and means causing said surfaces to compact-the mass of fibers fed thereto, substantiall as described.
9. In a machine or making a fiber board the. combination of a channel for feeding fibers; a chamber-communicating with said channel for floating a set of fibers and cans-. ing them to assume parallel positions; a second channel and a second chamber for floating a second set of fibers; and a foramin'ous surface adapted *to move across said chambers, substantially as described.
10. In a machine for making a fiber board the combination of a pair of foraminous surfaces; a plurality 'of chambers across which'said surfaces move; means for moving said surfaces; means for adjusting said surfaces relatively'to each other; means for floating a different kind of fiber to each of 7 said surfaces, and maintaining different hydrostatic pressures in said chambers, substantially as described.
11. In a machine for making a fiber board the combination of a pair of endless belt .foraminous surfaces; means for moving said-surfaces; means for adjusting said surfaces relatively to each other; means for regulating the amount of water flowing through each surface; and means for feed- I ing adifl'eren-t kind of fiber to each of said surfaces, substantially as described.
In testimony whereof I aflix my signature.
' JOHN K. SHAW.
US363990A 1920-03-26 1920-03-26 Process of and apparatus for making fiber boards Expired - Lifetime US1532083A (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2698972A (en) * 1952-08-19 1955-01-11 Lawrence M Keeler Method of assembling textile fibers hydraulically
US2734095A (en) * 1956-02-07 Plate separator for storage batteries
US2772603A (en) * 1950-09-12 1956-12-04 Owens Corning Fiberglass Corp Fibrous structures and methods for manufacturing same
DE1220716B (en) * 1961-04-26 1966-07-07 Feldmuehle Ag Device for the production of multilayer fibrous webs
US3384537A (en) * 1965-04-27 1968-05-21 Sandy Hill Corp Multi-layer papermaking apparatus
US3607377A (en) * 1968-12-30 1971-09-21 Amicon Corp Electroconductive paper
US6464830B1 (en) * 2000-11-07 2002-10-15 Kimberly-Clark Worldwide, Inc. Method for forming a multi-layered paper web

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2734095A (en) * 1956-02-07 Plate separator for storage batteries
US2772603A (en) * 1950-09-12 1956-12-04 Owens Corning Fiberglass Corp Fibrous structures and methods for manufacturing same
US2698972A (en) * 1952-08-19 1955-01-11 Lawrence M Keeler Method of assembling textile fibers hydraulically
DE1220716B (en) * 1961-04-26 1966-07-07 Feldmuehle Ag Device for the production of multilayer fibrous webs
US3384537A (en) * 1965-04-27 1968-05-21 Sandy Hill Corp Multi-layer papermaking apparatus
US3607377A (en) * 1968-12-30 1971-09-21 Amicon Corp Electroconductive paper
US6464830B1 (en) * 2000-11-07 2002-10-15 Kimberly-Clark Worldwide, Inc. Method for forming a multi-layered paper web

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