US2699389A - Reinforced paper and method of making same - Google Patents
Reinforced paper and method of making same Download PDFInfo
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- US2699389A US2699389A US238720A US23872051A US2699389A US 2699389 A US2699389 A US 2699389A US 238720 A US238720 A US 238720A US 23872051 A US23872051 A US 23872051A US 2699389 A US2699389 A US 2699389A
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- paper
- strands
- mesh
- fibers
- reenforced
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- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP 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
- D21H27/00—Special paper not otherwise provided for, e.g. made by multi-step processes
- D21H27/30—Multi-ply
- D21H27/32—Multi-ply with materials applied between the sheets
- D21H27/34—Continuous materials, e.g. filaments, sheets, nets
-
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21F—PAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
- D21F11/00—Processes for making continuous lengths of paper, or of cardboard, or of wet web for fibre board production, on paper-making machines
Definitions
- reenforced papers have generally been essentially laminated structures, in the making of:which areenforcingmaterial is interposed between preformed, separate, dried sheets of a paper stock and then bonded to the paper by means of a suitable adhesive composition.
- reenforced papers have not been satisfactory. Very often the bond between the reenforcing paper is, not as strong as required. Where relatively large amounts of adhesive have been used to increase the bond strength, the laminated paper construction becomes too stiff and brittle for wrapping and forming purposes.
- reenforced laminated papers are usually characterized by a visible ribbing formed in the external surfaces of the sheet by the .reenforcingstrands.
- reenforcing crossedstrands of glass fibers as for instance in the form of scrim are imbedded directly within the Web of paper fibers during formation of the fibrous mat.
- the reenforcing reticular meshof glass fiber strands is bonded to the adjoining fibers of the mat smooth surface reenforced paper containing thin reenforcing strands of woven glass fibers.
- Another object of the present invention is to provide means for imbedding a reticular mesh of glass fiber strands in a mat of paper fibers during the process of depositing the fibrous mat on the forming wire of a conventional Fourdrinier paper making machine.
- Another object of the present invention is to provide a method for producing a smooth surfaced, laterally and longitudinally reenforced paper.
- Figure 1 is a fragmentary schematic view of a headbox assembly of a conventional Fourdrinier machine illustrating the manner in which the reenforcing mesh of the present invention is imbedded within a mat of paper fibers;
- Figure 2 is a fragmentary view of a reenforced paper produced according to the method of the present invention, with a portion thereof broken away to illustrate the reenforcing mesh imbedded within the paper fibers;
- Figure 3 is an enlarged cross sectional view of a paper produced according to the present invention.
- Figure 4 is a greatly enlarged fragmentary view at the intersection of two reenforcing strands making up a portion of the reenforcing mesh.
- FIG 1 there is illustrated an assembly which might be employed in the practice of the method of the ice present invention.
- Thisassembly includes a coiledroll 10 of the r'eenforcingfmesh, consisting of a. mesh of glass fiber strands.
- the structure'of an individual strand is best-illustrated in the greatly magnified view of t Figure
- the reenforcing mesh includes a plurality of longitudinally extending: glass fiber strands 11 consisting of a'plurality of twisted, individual glass fibers 12 and a-similar strand 13 extendingin a lateral direction.
- thermoplastic resinous composition having adhesive properties.
- I may use such material as asphalt, or polyamide resins.
- suitable thermoplastic materials such as the Staybelite esters (gylcerol, monoethylene or polyethylene glycol esters of hydrogenated rosin) may also be employed.
- thermoplastic resinous composition A continuous coating 14 of the thermoplastic resinous composition is provided on the longitudinally extending strands 11 about the surface of the glass fibers 12 and this coating bonds the oriented strands into an integral mesh.
- a single ply 15 ofthereenforcing mesh iscontinuously uncoiled fromthe roll 10and immersed in a dilute aqueous suspension'of paper fibers 16 contained in a conventional headbox 17 of a Fourdrinier paper making machine.
- the ply 15 passes under a revolvingperforated roll 18 and under slice 19 to a moving forming -wire 20rtrained around a breast roll 21.
- the height of the perforated roll 18 is adjusted so-that the ply 15 is included approximately midway'between the deposited web of paper fibers as the fibrous mat is depositeduponthe forming wire 20.
- a large portion of the water contained in thepulp fibers deposited on the forming wire 20 is drained off as the suspension of paper fibers and the' reenforcing mesh imbedded therein travelalong the forming wire 20;
- Theresulting wet reenforced mesh 22 is then 'put through theusual press rollers and over a series ofconventional steamdrier rolls to remove the remaining water and to soften the thermoplastic resinous coating on the reenforcing mesh.
- the asphalt or other thermoplastic material becomes softened and bonds itself to the adjoining paper fibers, thus providing an integral paper web having the reenforcing mesh imbedded midway between the surfaces of the paper.
- the mesh imbedded in the paper consists of spaced, generally parallel strands 11 extending in the machine direction of the paper and of spaced substantially parallel strands 12 extending in the across-the-machine direction of the paper.
- the coating 14 of thermoplastic material bonded on each of the strands 11 not only bonds the strands 11 and 13 into a coherent network, sulting mesh to the adjoining paper fibers, so that the resulting mesh is firmly imbedded in the fibrous Web.
- the reenforced paper of the present invention has substantial longitudinal and lateral strength while still being sufiiciently flexible to be used for wrapping purposes.
- One of the advantages of the reenforced paper of the present invention is the fact that a lower basis weight paper can be employed for the same purposes that previously required high basis weight paper. Because the reenforcing mesh used in the paper of the present invention has very substantial strength even though the strands making up the mesh are relatively fine, the reenforced paper of the present invention can be run at a much faster rate than is possible with conventional reenforced papers.
- a relatively smooth surfaced flexible reenforced paper comprising a flexible reticular mesh of glass fiber strands contained within and wholly covered by a surrounding matrix of an integrated felted Web of paper fibers, the glass strands running in one direction having a continuous thin coating of a thermoplastic adhesive substance secured thereto and securing said strands to the glass strands running in the transverse direction and also securing the glass strands to the adjoining fibers of said web.
- a smooth surfaced flexible reenforced paper comprising a flexible reticular mesh of glass fiber strands interpenetrated with and wholly covered by a surrounding web of integrated felted paper fibers, the glass fiber strands running in one direction having a thin continuous coating of asphalt securing said glass fiber strands to the glass fiber strands running in the transverse direction and also securing the glass fiber strands to the fibers of said web immediately adjacent thereto and in contact therewith.
- a method of making a flexible reenforced paper which comprises immersing a reticular mesh of glass strands in an aqueous suspension of paper fibers, said mesh consisting of crossed strands of fibers having interstices therebetween and having a coating of a thermoplastic resinous material on strands running in one direction, depositing the paper fibers and the mesh suspended therein on a moving forming wire, the amount of deposited fibers being suflicient to fill the interstices and to cover Wholly said mesh, draining the wire from said suspension, and pressing and heating the resulting Web to bond said mesh to the paper fibers immediately adjacent the resin-bearing strands by means of the adhesiveness of the thermoplastic resinous material, so as to form a relatively smooth surfaced reenforced paper.
- a method of making a flexible reenforced paper which comprises immersing a flexible reticular mesh of glass fiber strands in an aqueous suspension of paper fibers, said mesh consisting of crossed strands of fibers having a coating of asphalt on strands running in one direction and having interstices therebetween, depositing the paper fibers in an amount suflicient to fill the in- 45 terstices and completely cover the mesh suspended therein on a forming wire, draining the water from said sus- 4 pension, and pressing and heating the resulting web to bond said mesh to the paper fibers adjoining said mesh by means of the adhesiveness of said asphalt.
- a method of making a flexible reenforced paper which comprises depositing moistened paper fibers on a flexible reticular mesh of glass fiber strands, said mesh consisting of crossed strands of fibers having a coating of asphalt on strands running in one direction and having interstices therebetween, the paper fibers being deposited in an amount sufiicient to fill the interstices and completely cover the mesh, draining the water from the moistened paper fibers, and pressing and heating the resulting product to bond said mesh to the paper fibers adjoining said mesh by means of the adhesiveness of said asphalt.
- a method of making a flexible reenforced paper which comprises depositing moistened paper fibers on a flexible reticular mesh of glass fiber strands, said mesh consisting of crossed strands of fibers having a coating of thermoplastic resinous binder material on strands running in one direction and having interstices therebetween, the paper fibers being deposited in an amount sufficient to fill the interstices and completely cover the mesh, draining the water from the moistened paper fibers, and pressing and heating the resulting product to bond said mesh to the paper fibers adjoining said mesh by means of the adhesiveness of said resinous binder material.
Description
H. c. CRANDALL REINFORCED PAPER AND METHOD OF MAKING SAME Filed Jur 26, 1951 ZVE YZ AFT-W [1922129 6? Urawa'a ZZ yx I Z L575 Jan. 11, 1955 United States Patent REINFORCED PAPER AN D METHOD OF MAKING SAME Henry C. Crandall, Mosinee Wis. ,-assig'nor to Mosinee Paper Mills Company, .Mosinee, Wis., 'a corporation of Wisconsin Application July 26, 1951, Serial No. 238,720 6 Claims. (Cl. 92 -3) The present invention relatesto a reenforcedpaper structure and to a method'ofproducing the same.
Several different types of strand or fabric reenforced paper have been known previously; Such reenforced papers have generally been essentially laminated structures, in the making of:which areenforcingmaterial is interposed between preformed, separate, dried sheets of a paper stock and then bonded to the paper by means of a suitable adhesive composition. For some applications, such reenforced papers have not been satisfactory. Very often the bond between the reenforcing paper is, not as strong as required. Where relatively large amounts of adhesive have been used to increase the bond strength, the laminated paper construction becomes too stiff and brittle for wrapping and forming purposes. Furthermore, reenforced laminated papers. are usually characterized by a visible ribbing formed in the external surfaces of the sheet by the .reenforcingstrands.
The foregoing disadvantages of conventional reenforced papers have been eliminated in the product of the present invention. In the reenforced paper of this invention, reenforcing crossedstrands of glass fibers, as for instance in the form of scrim are imbedded directly within the Web of paper fibers during formation of the fibrous mat. The reenforcing reticular meshof glass fiber strands is bonded to the adjoining fibers of the mat smooth surface reenforced paper containing thin reenforcing strands of woven glass fibers.
Another object of the present invention is to provide means for imbedding a reticular mesh of glass fiber strands in a mat of paper fibers during the process of depositing the fibrous mat on the forming wire of a conventional Fourdrinier paper making machine.
Another object of the present invention is to provide a method for producing a smooth surfaced, laterally and longitudinally reenforced paper.
A further description of the present invention will be made in connection with the accompanying sheets of drawings in which:
Figure 1 is a fragmentary schematic view of a headbox assembly of a conventional Fourdrinier machine illustrating the manner in which the reenforcing mesh of the present invention is imbedded within a mat of paper fibers;
Figure 2 is a fragmentary view of a reenforced paper produced according to the method of the present invention, with a portion thereof broken away to illustrate the reenforcing mesh imbedded within the paper fibers;
Figure 3 is an enlarged cross sectional view of a paper produced according to the present invention; and
Figure 4 is a greatly enlarged fragmentary view at the intersection of two reenforcing strands making up a portion of the reenforcing mesh.
As shown on the drawings:
In Figure 1, there is illustrated an assembly which might be employed in the practice of the method of the ice present invention. Thisassembly includes a coiledroll 10 of the r'eenforcingfmesh, consisting of a. mesh of glass fiber strands. The structure'of an individual strand is best-illustrated in the greatly magnified view of t Figure As shown in that drawing, the reenforcing mesh includes a plurality of longitudinally extending: glass fiber strands 11 consisting of a'plurality of twisted, individual glass fibers 12 and a-similar strand 13 extendingin a lateral direction. In order to bond the strands 11 and 13 together,- I prefer to coat the longitudinally extending strands with a thermoplastic resinous composition having adhesive properties. For this purpose, I may use such material as asphalt, or polyamide resins. Other suitable thermoplastic materials suchas the Staybelite esters (gylcerol, monoethylene or polyethylene glycol esters of hydrogenated rosin) may also be employed.
A continuous coating 14 of the thermoplastic resinous composition is provided on the longitudinally extending strands 11 about the surface of the glass fibers 12 and this coating bonds the oriented strands into an integral mesh. The thermoplastic bond betweenthe longitudinal- 1y extending strands 11' and cross strands13asindicated at 25 (Fig. 4).
Returning to the assembly shown in Figure 1, a single ply 15 ofthereenforcing mesh iscontinuously uncoiled fromthe roll 10and immersed in a dilute aqueous suspension'of paper fibers 16 contained in a conventional headbox 17 of a Fourdrinier paper making machine. The ply 15 passes under a revolvingperforated roll 18 and under slice 19 to a moving forming -wire 20rtrained around a breast roll 21. The height of the perforated roll 18 is adjusted so-that the ply 15 is included approximately midway'between the deposited web of paper fibers as the fibrous mat is depositeduponthe forming wire 20.
A large portion of the water contained in thepulp fibers deposited on the forming wire 20 is drained off as the suspension of paper fibers and the' reenforcing mesh imbedded therein travelalong the forming wire 20; Theresulting wet reenforced mesh 22 is then 'put through theusual press rollers and over a series ofconventional steamdrier rolls to remove the remaining water and to soften the thermoplastic resinous coating on the reenforcing mesh. During this treatment on the steam drier rolls, the asphalt or other thermoplastic material becomes softened and bonds itself to the adjoining paper fibers, thus providing an integral paper web having the reenforcing mesh imbedded midway between the surfaces of the paper.
The structure of the final product is illustrated in Figures 2 and 3. As shown in these figures, the mesh imbedded in the paper consists of spaced, generally parallel strands 11 extending in the machine direction of the paper and of spaced substantially parallel strands 12 extending in the across-the-machine direction of the paper. The coating 14 of thermoplastic material bonded on each of the strands 11 not only bonds the strands 11 and 13 into a coherent network, sulting mesh to the adjoining paper fibers, so that the resulting mesh is firmly imbedded in the fibrous Web. I prefer to use small diameter glass strands in making up the mesh so that when the mesh network is deposited within the fibrous mat, as illustrated in Figure 3, the outer surfaces of the reenforced paper, generally indicated at 23 and 24, are substantially smooth, even after passage through the steam drier rolls.
The reenforced paper of the present invention has substantial longitudinal and lateral strength while still being sufiiciently flexible to be used for wrapping purposes. One of the advantages of the reenforced paper of the present invention is the fact that a lower basis weight paper can be employed for the same purposes that previously required high basis weight paper. Because the reenforcing mesh used in the paper of the present invention has very substantial strength even though the strands making up the mesh are relatively fine, the reenforced paper of the present invention can be run at a much faster rate than is possible with conventional reenforced papers.
It will be evident that various modifications and but also bonds the re 3 variations may be effected without departing from the scope of the novel concepts of the present invention.
I claim as my invention:
1. A relatively smooth surfaced flexible reenforced paper comprising a flexible reticular mesh of glass fiber strands contained within and wholly covered by a surrounding matrix of an integrated felted Web of paper fibers, the glass strands running in one direction having a continuous thin coating of a thermoplastic adhesive substance secured thereto and securing said strands to the glass strands running in the transverse direction and also securing the glass strands to the adjoining fibers of said web.
2. A smooth surfaced flexible reenforced paper comprising a flexible reticular mesh of glass fiber strands interpenetrated with and wholly covered by a surrounding web of integrated felted paper fibers, the glass fiber strands running in one direction having a thin continuous coating of asphalt securing said glass fiber strands to the glass fiber strands running in the transverse direction and also securing the glass fiber strands to the fibers of said web immediately adjacent thereto and in contact therewith.
3. A method of making a flexible reenforced paper, which comprises immersing a reticular mesh of glass strands in an aqueous suspension of paper fibers, said mesh consisting of crossed strands of fibers having interstices therebetween and having a coating of a thermoplastic resinous material on strands running in one direction, depositing the paper fibers and the mesh suspended therein on a moving forming wire, the amount of deposited fibers being suflicient to fill the interstices and to cover Wholly said mesh, draining the wire from said suspension, and pressing and heating the resulting Web to bond said mesh to the paper fibers immediately adjacent the resin-bearing strands by means of the adhesiveness of the thermoplastic resinous material, so as to form a relatively smooth surfaced reenforced paper.
4. A method of making a flexible reenforced paper, which comprises immersing a flexible reticular mesh of glass fiber strands in an aqueous suspension of paper fibers, said mesh consisting of crossed strands of fibers having a coating of asphalt on strands running in one direction and having interstices therebetween, depositing the paper fibers in an amount suflicient to fill the in- 45 terstices and completely cover the mesh suspended therein on a forming wire, draining the water from said sus- 4 pension, and pressing and heating the resulting web to bond said mesh to the paper fibers adjoining said mesh by means of the adhesiveness of said asphalt.
5. A method of making a flexible reenforced paper, which comprises depositing moistened paper fibers on a flexible reticular mesh of glass fiber strands, said mesh consisting of crossed strands of fibers having a coating of asphalt on strands running in one direction and having interstices therebetween, the paper fibers being deposited in an amount sufiicient to fill the interstices and completely cover the mesh, draining the water from the moistened paper fibers, and pressing and heating the resulting product to bond said mesh to the paper fibers adjoining said mesh by means of the adhesiveness of said asphalt.
6. A method of making a flexible reenforced paper, which comprises depositing moistened paper fibers on a flexible reticular mesh of glass fiber strands, said mesh consisting of crossed strands of fibers having a coating of thermoplastic resinous binder material on strands running in one direction and having interstices therebetween, the paper fibers being deposited in an amount sufficient to fill the interstices and completely cover the mesh, draining the water from the moistened paper fibers, and pressing and heating the resulting product to bond said mesh to the paper fibers adjoining said mesh by means of the adhesiveness of said resinous binder material.
References Cited in the file of this patent UNITED STATES PATENTS 1,116,237 Burrell Nov. 3, 1914 1,335,910 Munroe Apr. 6, 1920 1,503,337 Seigle July 29, 1924 1,644,050 Cady Oct. 4, 1927 1,828,351 Arnold Oct. 20, 1931 1,870,267 Stone et al. Aug. 9, 1932 1,894,219 Gibbs Jan. 10, 1933 1,921,504 Chase et a1 Aug. 8, 1933 1,940,974 Shaver Dec. 26, 1933 2,146,296 Heye Feb. 7, 1939 2,457,775 Ebaugh Dec. 28, 1948 2,620,851 Brown Dec. 9, 1952 FOREIGN PATENTS 497,059 Great Britain Dec. 8, 1938
Claims (1)
1. A RELATIVELY SMOOTH SURFACED FLEXIBLE REENFORCED PAPER COMPRISING A FLEXIBLE RETICULAR MESH OF GLASS FIBER STRANDS CONTAINED WITHIN AND WHOLLY COVERED BY A SURROUNDING MATRIX OF AN INTEGRATED FELTED WEB OF PAPER FIBERS, THE GLASS STRANDS RUNNING IN ONE DIRECTION HAVING A CONTINUOUS THIN COATING OF A THERMOPLASTIC ADHESIVE SUBSTANCE SECURED THERETO AND SECURING SAID STRANDS TO THE GLASS STRANDS RUNNING IN THE TRANSVERSE DIRECTION AND ALSO SECURING THE GLASS STRANDS TO THE ADJOINING FIBERS OF SAID WEB.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US238720A US2699389A (en) | 1951-07-26 | 1951-07-26 | Reinforced paper and method of making same |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US238720A US2699389A (en) | 1951-07-26 | 1951-07-26 | Reinforced paper and method of making same |
GB2963954A GB754076A (en) | 1954-10-14 | 1954-10-14 | Improvements in and relating to reinforced paper |
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US2699389A true US2699389A (en) | 1955-01-11 |
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US238720A Expired - Lifetime US2699389A (en) | 1951-07-26 | 1951-07-26 | Reinforced paper and method of making same |
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2708177A (en) * | 1952-06-13 | 1955-05-10 | Rhinelander Paper Company | Laminated paper product |
US2780572A (en) * | 1953-03-03 | 1957-02-05 | Arthur E Carlson | Method of making reinforced sheet material |
US2859109A (en) * | 1954-12-31 | 1958-11-04 | Hawley Products Co | Felted products containing glass filaments |
US2932601A (en) * | 1954-11-12 | 1960-04-12 | Hawley Products Co | Process of preparing felted products containing hydratable and non-hydratable fibers |
US3895998A (en) * | 1972-02-08 | 1975-07-22 | Nat Res Dev | Production of shaped articles from paper sludge |
US3895997A (en) * | 1971-07-21 | 1975-07-22 | Nat Res Dev | Production of shaped articles from paper sludge |
DE2731437A1 (en) * | 1976-07-13 | 1978-01-19 | Crowell Corp | LAMINATED FILM MATERIAL |
US4294655A (en) * | 1978-03-15 | 1981-10-13 | Consolidated Fiberglass Products Company | Method and apparatus for forming fiberglass mats |
Citations (13)
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US1116237A (en) * | 1913-04-26 | 1914-11-03 | Ernest L Burrell | Material for belting, &c. |
US1335910A (en) * | 1919-04-03 | 1920-04-06 | B G Dahlberg | Reinforced fibrous board and process of producing the same |
US1503337A (en) * | 1920-01-06 | 1924-07-29 | William R Seigle | Insulation fabric |
US1644050A (en) * | 1921-11-07 | 1927-10-04 | Walter H Cady | Process for producing reenforced waterproof compositions |
US1828351A (en) * | 1928-08-22 | 1931-10-20 | Eastern Expanded Metal Company | Insulating metal lath |
US1870267A (en) * | 1929-04-15 | 1932-08-09 | Mosinee Paper Mills Company | Method and apparatus for making reenforced paper |
US1894219A (en) * | 1931-04-03 | 1933-01-10 | American Reenforced Paper Co | Reenforced paper |
US1921504A (en) * | 1928-04-27 | 1933-08-08 | Brown Co | Composite web and method of making the same |
US1940974A (en) * | 1931-01-07 | 1933-12-26 | Therminsul Corp Of America | Waterproof and water-repellant insulation |
GB497059A (en) * | 1937-02-10 | 1938-12-08 | Mij Exploitatie Octrooien Nv | Improvements in paper |
US2146296A (en) * | 1935-03-11 | 1939-02-07 | Heye Ole | Process for preparing wrapping and building material |
US2457775A (en) * | 1943-10-27 | 1948-12-28 | Owens Corning Fiberglass Corp | Manufacture of glass fibers |
US2620851A (en) * | 1949-07-09 | 1952-12-09 | Owens Corning Fiberglass Corp | Inorganic sheet material |
-
1951
- 1951-07-26 US US238720A patent/US2699389A/en not_active Expired - Lifetime
Patent Citations (13)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1116237A (en) * | 1913-04-26 | 1914-11-03 | Ernest L Burrell | Material for belting, &c. |
US1335910A (en) * | 1919-04-03 | 1920-04-06 | B G Dahlberg | Reinforced fibrous board and process of producing the same |
US1503337A (en) * | 1920-01-06 | 1924-07-29 | William R Seigle | Insulation fabric |
US1644050A (en) * | 1921-11-07 | 1927-10-04 | Walter H Cady | Process for producing reenforced waterproof compositions |
US1921504A (en) * | 1928-04-27 | 1933-08-08 | Brown Co | Composite web and method of making the same |
US1828351A (en) * | 1928-08-22 | 1931-10-20 | Eastern Expanded Metal Company | Insulating metal lath |
US1870267A (en) * | 1929-04-15 | 1932-08-09 | Mosinee Paper Mills Company | Method and apparatus for making reenforced paper |
US1940974A (en) * | 1931-01-07 | 1933-12-26 | Therminsul Corp Of America | Waterproof and water-repellant insulation |
US1894219A (en) * | 1931-04-03 | 1933-01-10 | American Reenforced Paper Co | Reenforced paper |
US2146296A (en) * | 1935-03-11 | 1939-02-07 | Heye Ole | Process for preparing wrapping and building material |
GB497059A (en) * | 1937-02-10 | 1938-12-08 | Mij Exploitatie Octrooien Nv | Improvements in paper |
US2457775A (en) * | 1943-10-27 | 1948-12-28 | Owens Corning Fiberglass Corp | Manufacture of glass fibers |
US2620851A (en) * | 1949-07-09 | 1952-12-09 | Owens Corning Fiberglass Corp | Inorganic sheet material |
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2708177A (en) * | 1952-06-13 | 1955-05-10 | Rhinelander Paper Company | Laminated paper product |
US2780572A (en) * | 1953-03-03 | 1957-02-05 | Arthur E Carlson | Method of making reinforced sheet material |
US2932601A (en) * | 1954-11-12 | 1960-04-12 | Hawley Products Co | Process of preparing felted products containing hydratable and non-hydratable fibers |
US2859109A (en) * | 1954-12-31 | 1958-11-04 | Hawley Products Co | Felted products containing glass filaments |
US3895997A (en) * | 1971-07-21 | 1975-07-22 | Nat Res Dev | Production of shaped articles from paper sludge |
US3895998A (en) * | 1972-02-08 | 1975-07-22 | Nat Res Dev | Production of shaped articles from paper sludge |
DE2731437A1 (en) * | 1976-07-13 | 1978-01-19 | Crowell Corp | LAMINATED FILM MATERIAL |
US4086384A (en) * | 1976-07-13 | 1978-04-25 | The Crowell Corporation | Reforced paper-microfoam sheet packaging material |
US4294655A (en) * | 1978-03-15 | 1981-10-13 | Consolidated Fiberglass Products Company | Method and apparatus for forming fiberglass mats |
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