US3054717A - Method of producing lignocellulose hardboard - Google Patents

Method of producing lignocellulose hardboard Download PDF

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US3054717A
US3054717A US834764A US83476459A US3054717A US 3054717 A US3054717 A US 3054717A US 834764 A US834764 A US 834764A US 83476459 A US83476459 A US 83476459A US 3054717 A US3054717 A US 3054717A
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fiber
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Turner Harold Dale
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Masonite Corp
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    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21JFIBREBOARD; MANUFACTURE OF ARTICLES FROM CELLULOSIC FIBROUS SUSPENSIONS OR FROM PAPIER-MACHE
    • D21J1/00Fibreboard

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  • the present invention relates to the production of lignocellulose hardboard sheet articles. More particularly, the invention relates to a novel method for the production of hardboard sheet articles characterized by their freedom from surface defects, by their decorative appearance, and by improved physical properties. The invention includes the novel process, the improved hardboard articles, and the apparatus for their production.
  • wet lap In the conventional prior art production of hardboard, it has been the practice to first form a wet lap or mat of lignocellulose fiber on a traveling screen.
  • the wet lap has been formed by flowing a dilute aqueous slurry containing about 2% to 3% of fiber through a headbox and thence onto the forming screen.
  • the mat In the case of cylinder-type forming machines, the mat has been formed on the suction portion of the cylinder and then transfered to a traveling screen. Thereafter, the wet mat was partially dewatered by passage over a free drainage area, over suction boxes, and then between several pairs of pressure rolls.
  • the partially dewatered lap usually containing about 4060% of water was then pressed in a heated hydraulic press to its final consolidated, hard, and dense sheet form. In some instances, the wet lap has been dried to substantial dryness and then consolidated in this condition.
  • Another object of the invention resides in the provision of a novel means for depositing fibers and other particulate materials in the form of individual and separate particles.
  • Still another object of the invention resides in the provision of hardboard sheet articles whose surfaces are free from defects and are characterized by greatly improved physical properties. Further objects of the invention will become apparent from the following detailed description thereof.
  • wood, or Woody material from various vegetable growths is first hydrolyzed to the extent that the fibers may later be consolidated and welded together by the application of heat and pressure.
  • the lignocellulose is reduced to fiber form and slurried in water.
  • the fibrous slurry usually containing about 23% by dry weight of fiber, is pumped into a headbox which is designated in the drawing by the numeral 10. From the headbox 10 the slurry is flowed onto the traveling screen 12 where it first passes over a free drainage area.
  • the lap or mat 17 then passes over one or more suction boxes 14- and then between pressure rolls 16 which may also be equipped with suction means.
  • the wet lap 17 will normally contain about 40-60% of water although it appears to be quite dry. Beyond the pressure rolls the lap is conveyed along rollers inasmuch as it is self-sustaining to the degree that a screen or belt is no longer required.
  • a second slurry is prepared by dispersing in water additional lignocellulose fiber, pigment, resin, or mixtures containing the desired particulate material.
  • This second slurry will normally not contain more than about 3% by weght of the selected fibrous and/or particulate material.
  • the slurry is pumped from the storage tank 18 into the headbox 20 and is picked up on the suction roll 22. Passage beneath the roll 24 and over the suction section 25 thereof reduces the water content of this mat 26 to about 85%.
  • the mat 26 travels along the wire screen '28 until it is in relatively close proximity to the wet lap 17 at the point where the wire screen 28 passes around the roll 30.
  • a revolving brush 32 contacts the mat 26 and, inasmuch as it revolves very rapidly, throws the particles down onto the wet lap 17 where they impinge upon the lap surface with considerable force. It has been found that best results are obtained when the brush 32 rotates at a speed of at least about 600 rpm. When the brush has a diameter of for example, 8 inches the bristles thereof are traveling at a speed of about 1600 feet per minute. However, rotational speeds in excess of about 2500 rpm. (about 5,300 ft./min.) create windage problems which may cause adverse eifects in the overlay. Within these limits a very uniform layer of material is deposited on the wet lap.
  • the composite wet lap is thereafter out into the desired lengths which are traveled either directly into a heated multi-plat'en hydraulic press or into "a drier.
  • a wire screen beneath the laps to provide drainage means for the water which is expressed from the laps.
  • Pressures of about 300-600 p.s.i. are usually suflicient to consolidate the laps to specific gravities of about 1 although in some instances it is desirable to obtain hardboard sheets with average specific gravities of about 0.9 or slightly lower.
  • the laps which are dried before pressing are traveled through a drier having several different temperature zones ranging from about 750 F. to about 320 F.
  • the substantially dried laps containing from about 0% to about 8% of moisture are then usually consolidated between two smooth press plates to obtain h-ardboard sheets having two smooth surface. Pressures of as much as about 2,000 p.s.i. are employed in this process and the finished sheets have specific gravities of from about 1.05 to about 1.2.
  • the novel method affords many advantages not heretofore available to manufacturers of hardboard sheet articles.
  • the fibers which are deposited by the revolving brush are separated and thrown with considerable force, there is an entwining and interlocking effect in the overlay.
  • a very thin layer of such material conceals the clumps of the Wet-formed lap.
  • the slurry to be employed in this secondary deposition may therefore contain as little as about 0.5% by weight of solids.
  • the exact proportion of solids to water will, of course, depend to a great extent on the speed of travel of 9 a the board forming screen, the speed of the revolving brush, and the thickness desired in the so-deposited layer in the finished sheet product.
  • the brush itself should be one in which the bristles are spaced apart some distance as, for example, about 025- inch. It has been found that a conventional brush with its bristles close together tends to become loaded with fiber or other material to be deposited and loses etficiency very rapidly.
  • the fibers to be impinged on the wet lap surface may be mixed with any desired materials such as resins, pigments, dyes, mineral fibers, and the like to afford distinctive and/or decorative characteristics .to the finished products.
  • Another important feature of the invention resides in the deposition of the overlay subsequent to removal of as much water as possible from the wet lap.
  • the process water intermingles with theparticulate material depositied and nullifies the advantages which are derived from the novel method. It is to be understood, therefore, that the mat deposited by means of the high speed brush must be applied after the wet lap has passed through the pressure rolls.
  • the desired smoothness in the finished product may be obtained by depositing sufiicient particulate material in the overlay to provide a final consolidated thickness of about 2-5 mils.
  • the overlay may be as thick as about mils or more depending upon the desired characteristics.
  • the material to be deposited by means ofthe high speed brush may include any type of fibrous material as well as pigmerits, resins, dyes, and the like particulate materials.
  • the surface of the finished hardboard sheet is greatly improved in appearance and in its physical properties, including improved paint hold-out charaeteristics.
  • a method for producing lignocellulose hardboard which comprises forming an aqueous slurry of hydrolyzed lignocellulose fiber containing about 2-3% of fiber by dry weight, forming a wet lap of said fiber on the traveling screen of a board forming machine, partially dewatering said lap by suction and pressure treatment to a moisture content of about 40-60%, forming a second aqueous slurry containing about l-3% of solid particulate material, forming a wet mat from said second slurry, partially dewatering said mat to a water content of about 75-85%, forcefully throwing the particulate material of said mat upon the surface of said Wet lap in an amount sufiicient to provide on the surface of the finished product an overlay about 2-20 mils thick, and thereafter consolidating the so-formed composite lap under heat and pressure.
  • a method for producing lignocellulose hardboard which comprises forming an aqueous slurry of hydrolyzed lignocellulose fiber containing about 2-3% of fiber by dry Weight, forming a wet lap of said fiber on the traveling screen of a board forming machine, partially dewatering said lap by suction and pressure treatment to a moisture content of about 40-60%, forming a second aqueous slurry containing about 1-3% of solid particulate material, forming a wet mat from said second slurry, partially dewatering said mat to a water content of about 75-85%, forcefully throwing the particulate material of said mat upon the surface of said wet lap in an amount sufficient to provide on the surface of the finished product an overlay about 2-20 mils thick, drying said lap to a moisture content not appreciably greater than about 8%, and thereafter consolidating said dried lap under heat and pressure to obtain a hardboard characterized by its freedom from surface defects.
  • a method for producing lignocellulose hardboard which comprises forming an aqueous slurry of hydrolyzed lignocellulose fiber containing about 2-3% of fiber by dry weight, forming a wet lap of said fiber on the traveling screen of a board forming machine, partially dewatering said lap by suction and pressure treatment to a moisture content of about 40-60%, impinging on the surface of said partially dewatered lap at a rate of about 1600- 5300 feet per minute a particulate material from a wet mat containing about 15-25% by dry weight of said mater-ial, and thereafter consolidating said lap under heat and pressure to obtain a hardboard characterized by its freedom from surface defects.
  • a method for producing lignocellulose hardboard which comprises forming an aqueous slurry of hydrolyzed lignocellulose fiber containing about 23% of fiber by dry weight, forming a wet lap of said fiber on the traveling screen of a board forming machine, partially dewatering said lap by suction and pressure treatment to a moisture content of about 40-60%, forming a second aqueous slurry containing about l3% of solid particulate material, forming a wet mat from said second slurry, partilly dewatering said mat to a water content of about -85%, throwing the particulate material of said mat upon the surface of said wet lap at a speed of about 1600-5300 feet per minute in an amount sufficient to provide on the surface of the finished product an overlay about 2-20 mils thick, and thereafter consolidating the so-fonmed composite lap under heat and pressure.
  • a method for producing lignocellulose hardboard which comprises forming an aqueous slurry of hydrolyzed li-gnocellulose fiber containing about 2-3% of fiber by dry weight, forming a wet lap of said fiber on the traveling screen of a board forming machine, partially dewatering said lap by suction and pressure treatment to a moisture content of about 40-60%, impinging on the surface of said partially dewatered lap at a rate of about 1600-5300 feet per minute a particulate material from a wet mat containing about 15-25% by dry weight of said material, drying said lap to a moisture content not ap preciably greater than about 8%, and thereafter consolidating said dried lap under heat and pressure to obtain a hardboard characterized by its freedom from surface defects.
  • a method for producing lignocellulose hardboard which comprises forming an aqueous slurry of hydrolyzed lignocellulose fiber containing about 2-3% of fiber by dry weight, forming a wet lap of said fiber on the traveling screen of a board forming mchine, partially dewatering said lap by suction and pressure treatment to 2.

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Description

Sept. 18, 1962 H. D. TURNER METHOD OF PRODUCING LIGNOCELLULOSE HARDBOARD Filed Aug. 19, 1959 R v E N ma U T we L A D D L 0 Dn A H ATTORNEY United States Patent Ofifice 3,054,717 Patented Sept. 18, 1062 3,054,717 METHOD OF PRODUCING LIGNOCELLULOSE HARDBO El Harold Dale Turner, Laurel, Miss., assignor to Masonite Corporation, Laurel, Miss, a corporation of Delaware Filed Aug. 19, 1959, Ser. No. 834,764 6 Claims. (Cl. 162123) The present invention relates to the production of lignocellulose hardboard sheet articles. More particularly, the invention relates to a novel method for the production of hardboard sheet articles characterized by their freedom from surface defects, by their decorative appearance, and by improved physical properties. The invention includes the novel process, the improved hardboard articles, and the apparatus for their production.
In the conventional prior art production of hardboard, it has been the practice to first form a wet lap or mat of lignocellulose fiber on a traveling screen. The wet lap has been formed by flowing a dilute aqueous slurry containing about 2% to 3% of fiber through a headbox and thence onto the forming screen. In the case of cylinder-type forming machines, the mat has been formed on the suction portion of the cylinder and then transfered to a traveling screen. Thereafter, the wet mat was partially dewatered by passage over a free drainage area, over suction boxes, and then between several pairs of pressure rolls. The partially dewatered lap, usually containing about 4060% of water was then pressed in a heated hydraulic press to its final consolidated, hard, and dense sheet form. In some instances, the wet lap has been dried to substantial dryness and then consolidated in this condition.
All of the prior art wet-forming processes were subject to one serious problem which stemmed from an inherent physical characteristic present in all such aqueous fiber slurry systems. The individual fibers in the system have tended to clump together and, in the felting procedure, the wet lap has consisted of a multiplicity of tiny balls or clumps of fibers together with a mass of individual fibers. The sheet products have been characterized by small areas of high density interspersed among areas of lower density which cause the surfaces of the hardboard sheets to present a mottled, or cockled, appearance. Additionally, the cockled surfaces have been non-uniform with respect to their paint hold-out properties. Many attempts have been made to overcome this serious problem. Principally, the prior art has sought to prevent clumping of the fibers by the alteration of head box design and by the provision of so-called flow spreaders. However, up to the present time the problem still exists in all wet-forming processes.
It is a primary object of the present invention to provide a novel method whereby surface defects due to fiber clumping are eliminated in the production of hardboard sheet articles.
Another object of the invention resides in the provision of a novel means for depositing fibers and other particulate materials in the form of individual and separate particles.
Still another object of the invention resides in the provision of hardboard sheet articles whose surfaces are free from defects and are characterized by greatly improved physical properties. Further objects of the invention will become apparent from the following detailed description thereof.
The description will be given with particular reference to the accompanying drawing in which a schematic representation of a board forming machine and hydraulic press shows the means for carrying out the novel method.
In carying out the invention, wood, or Woody material from various vegetable growths, is first hydrolyzed to the extent that the fibers may later be consolidated and welded together by the application of heat and pressure. Subsequent to hydrolysis, the lignocellulose is reduced to fiber form and slurried in water. The fibrous slurry, usually containing about 23% by dry weight of fiber, is pumped into a headbox which is designated in the drawing by the numeral 10. From the headbox 10 the slurry is flowed onto the traveling screen 12 where it first passes over a free drainage area. The lap or mat 17 then passes over one or more suction boxes 14- and then between pressure rolls 16 which may also be equipped with suction means. At this point, the wet lap 17 will normally contain about 40-60% of water although it appears to be quite dry. Beyond the pressure rolls the lap is conveyed along rollers inasmuch as it is self-sustaining to the degree that a screen or belt is no longer required.
A second slurry is prepared by dispersing in water additional lignocellulose fiber, pigment, resin, or mixtures containing the desired particulate material. This second slurry will normally not contain more than about 3% by weght of the selected fibrous and/or particulate material. The slurry is pumped from the storage tank 18 into the headbox 20 and is picked up on the suction roll 22. Passage beneath the roll 24 and over the suction section 25 thereof reduces the water content of this mat 26 to about 85%. The mat 26 travels along the wire screen '28 until it is in relatively close proximity to the wet lap 17 at the point where the wire screen 28 passes around the roll 30.
A revolving brush 32 contacts the mat 26 and, inasmuch as it revolves very rapidly, throws the particles down onto the wet lap 17 where they impinge upon the lap surface with considerable force. It has been found that best results are obtained when the brush 32 rotates at a speed of at least about 600 rpm. When the brush has a diameter of for example, 8 inches the bristles thereof are traveling at a speed of about 1600 feet per minute. However, rotational speeds in excess of about 2500 rpm. (about 5,300 ft./min.) create windage problems which may cause adverse eifects in the overlay. Within these limits a very uniform layer of material is deposited on the wet lap.
The composite wet lap is thereafter out into the desired lengths which are traveled either directly into a heated multi-plat'en hydraulic press or into "a drier. Where the laps are conveyed directly to the hydraulic press, it is common practice to employ a wire screen beneath the laps to provide drainage means for the water which is expressed from the laps. Pressures of about 300-600 p.s.i. are usually suflicient to consolidate the laps to specific gravities of about 1 although in some instances it is desirable to obtain hardboard sheets with average specific gravities of about 0.9 or slightly lower.
The laps which are dried before pressing are traveled through a drier having several different temperature zones ranging from about 750 F. to about 320 F. The substantially dried laps containing from about 0% to about 8% of moisture are then usually consolidated between two smooth press plates to obtain h-ardboard sheets having two smooth surface. Pressures of as much as about 2,000 p.s.i. are employed in this process and the finished sheets have specific gravities of from about 1.05 to about 1.2.
The novel method affords many advantages not heretofore available to manufacturers of hardboard sheet articles. Inasmuch as the fibers which are deposited by the revolving brush are separated and thrown with considerable force, there is an entwining and interlocking effect in the overlay. Thus, a very thin layer of such material conceals the clumps of the Wet-formed lap. The slurry to be employed in this secondary deposition may therefore contain as little as about 0.5% by weight of solids. The exact proportion of solids to water will, of course, depend to a great extent on the speed of travel of 9 a the board forming screen, the speed of the revolving brush, and the thickness desired in the so-deposited layer in the finished sheet product. The brush itself should be one in which the bristles are spaced apart some distance as, for example, about 025- inch. It has been found that a conventional brush with its bristles close together tends to become loaded with fiber or other material to be deposited and loses etficiency very rapidly.
Furthermore, the fibers to be impinged on the wet lap surface may be mixed with any desired materials such as resins, pigments, dyes, mineral fibers, and the like to afford distinctive and/or decorative characteristics .to the finished products.
Another important feature of the invention resides in the deposition of the overlay subsequent to removal of as much water as possible from the wet lap. Where the overlay mat is depositied on a wet lap containing in excess of about 60% of water, the process water intermingles with theparticulate material depositied and nullifies the advantages which are derived from the novel method. It is to be understood, therefore, that the mat deposited by means of the high speed brush must be applied after the wet lap has passed through the pressure rolls.
In most instances the desired smoothness in the finished product may be obtained by depositing sufiicient particulate material in the overlay to provide a final consolidated thickness of about 2-5 mils. However, where desired, the overlay may be as thick as about mils or more depending upon the desired characteristics. The material to be deposited by means ofthe high speed brush may include any type of fibrous material as well as pigmerits, resins, dyes, and the like particulate materials. In all instances, the surface of the finished hardboard sheet is greatly improved in appearance and in its physical properties, including improved paint hold-out charaeteristics.
I claim:
1. A method for producing lignocellulose hardboard which comprises forming an aqueous slurry of hydrolyzed lignocellulose fiber containing about 2-3% of fiber by dry weight, forming a wet lap of said fiber on the traveling screen of a board forming machine, partially dewatering said lap by suction and pressure treatment to a moisture content of about 40-60%, forming a second aqueous slurry containing about l-3% of solid particulate material, forming a wet mat from said second slurry, partially dewatering said mat to a water content of about 75-85%, forcefully throwing the particulate material of said mat upon the surface of said Wet lap in an amount sufiicient to provide on the surface of the finished product an overlay about 2-20 mils thick, and thereafter consolidating the so-formed composite lap under heat and pressure.
2. A method for producing lignocellulose hardboard which comprises forming an aqueous slurry of hydrolyzed lignocellulose fiber containing about 2-3% of fiber by dry Weight, forming a wet lap of said fiber on the traveling screen of a board forming machine, partially dewatering said lap by suction and pressure treatment to a moisture content of about 40-60%, forming a second aqueous slurry containing about 1-3% of solid particulate material, forming a wet mat from said second slurry, partially dewatering said mat to a water content of about 75-85%, forcefully throwing the particulate material of said mat upon the surface of said wet lap in an amount sufficient to provide on the surface of the finished product an overlay about 2-20 mils thick, drying said lap to a moisture content not appreciably greater than about 8%, and thereafter consolidating said dried lap under heat and pressure to obtain a hardboard characterized by its freedom from surface defects.
3. A method for producing lignocellulose hardboard which comprises forming an aqueous slurry of hydrolyzed lignocellulose fiber containing about 2-3% of fiber by dry weight, forming a wet lap of said fiber on the traveling screen of a board forming machine, partially dewatering said lap by suction and pressure treatment to a moisture content of about 40-60%, impinging on the surface of said partially dewatered lap at a rate of about 1600- 5300 feet per minute a particulate material from a wet mat containing about 15-25% by dry weight of said mater-ial, and thereafter consolidating said lap under heat and pressure to obtain a hardboard characterized by its freedom from surface defects.
4. A method for producing lignocellulose hardboard which comprises forming an aqueous slurry of hydrolyzed lignocellulose fiber containing about 23% of fiber by dry weight, forming a wet lap of said fiber on the traveling screen of a board forming machine, partially dewatering said lap by suction and pressure treatment to a moisture content of about 40-60%, forming a second aqueous slurry containing about l3% of solid particulate material, forming a wet mat from said second slurry, partilly dewatering said mat to a water content of about -85%, throwing the particulate material of said mat upon the surface of said wet lap at a speed of about 1600-5300 feet per minute in an amount sufficient to provide on the surface of the finished product an overlay about 2-20 mils thick, and thereafter consolidating the so-fonmed composite lap under heat and pressure.
5. A method for producing lignocellulose hardboard which comprises forming an aqueous slurry of hydrolyzed li-gnocellulose fiber containing about 2-3% of fiber by dry weight, forming a wet lap of said fiber on the traveling screen of a board forming machine, partially dewatering said lap by suction and pressure treatment to a moisture content of about 40-60%, impinging on the surface of said partially dewatered lap at a rate of about 1600-5300 feet per minute a particulate material from a wet mat containing about 15-25% by dry weight of said material, drying said lap to a moisture content not ap preciably greater than about 8%, and thereafter consolidating said dried lap under heat and pressure to obtain a hardboard characterized by its freedom from surface defects.
6. A method for producing lignocellulose hardboard which comprises forming an aqueous slurry of hydrolyzed lignocellulose fiber containing about 2-3% of fiber by dry weight, forming a wet lap of said fiber on the traveling screen of a board forming mchine, partially dewatering said lap by suction and pressure treatment to 2. moisture content of about 40-60%, forming a second aqueous slurry containing about 1-3% of solid particulate material, forrning a wet mat from said second slurry, partially dewatering said mat to a water content of about 75- throwing the particulate material of said mat upon the surface of said wet lap at a speed of about 1600- 5300 feet per minute in an amount sufiicient to provide on the surface of the finished product an overlay about 2-20 mils thick, drying said lap to a moisture content not appreciably greater than about 8%, and thereafter con solidating said dried lap under heat and pressure to obtain a hardboard characterized by its freedom from sur face defects.
References Cited in the file of this patent UNITED STATES PATENTS 1,907,046 'Darrah May 2, 1933 2,018,382 Sale Oct. 22, 1935 2,286,942 Tuten June 16, 1942 2,335,722 Adams Nov. 30, 1943 2,447,161 Coghill Aug. 17, 1948 2,913,365 Osborne et al Nov. 17, 1959 FOREIGN PATENTS 29,226 Austria Oct. 30, 1884 539,226 Great Britain Sept. 2, 1941

Claims (1)

1. A METHOD FOR PRODUCING LIGNOCELLULOSE HARDBOARD WHICH COMPRISES FORMING AN AQUEOUS SLURRY OF HYDROLYZED LIGNOCELLULOSE FIBER CONTAINING ABOUT 2-3% OF FIBER BY DRY WEIGHT, FORMING A WET LAP OF SAID FIBER ON THE TRAVELING SCREEN OF A BOARD FORMING MACHINE, PARTIALLY DEWATERING SAID LAP BY SUCTION AND PRESSURE TREATMENT OT A MOISTURE CONTENT OF ABOUT 40-60%, FORMING A SECOND AQUEOUS SLURRY CONTAINING ABOUT 1-3% OF SOLID PARTICULATE MATERIAL, FORMING A WET MAT FROM SAID SECOND SLURRY, PARTIALLY DEWATERING SAID MAT TO A WATER CONTENT OF ABOUT 75-85%, FORCEFULLY THROWING THE PARTICULATE MATERIAL OF SAID MAT UPON THE SURFACE OF SAID WET LAP IN AN AMOUNT SUFFICIENT TO PROVIDE ON THE SURFACE OF THE FINISHED PRODUCT AN OVERLAY ABOUT 2-20 MILS THICK, AND THEREAFTER CONSOLIDATING THE SO-FORMED COMPOSITE LAP UNDER HEAT AND PRESSURE.
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3147178A (en) * 1961-05-18 1964-09-01 St Joe Paper Company Sulphate digestion process
US3151016A (en) * 1962-07-13 1964-09-29 Interchem Corp Method of making pressed fiber board
US3463685A (en) * 1967-06-26 1969-08-26 Int Paper Co Process for pre-treating facing sheets for gypsum boards
US4113554A (en) * 1976-02-03 1978-09-12 Rogers Corporation Method of manufacturing insulating board
FR2551779A1 (en) * 1983-09-12 1985-03-15 Stenay Papeterie METHOD FOR IMPROVING THE SURFACE CONDITION OF A FIBER PANEL
US4726881A (en) * 1983-02-28 1988-02-23 Masonite Corporation Method of making wet process panels of composite wood material with semi-matching contoured pressure plates
FR2647129A1 (en) * 1989-05-22 1990-11-23 Pym 71 Panel of vegetable fibres and its process of manufacture

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AT29226B (en) * 1905-11-04 1907-07-25 Carl Pohl Process for the production of panels from fibrous materials and hydraulic binders.
US1907046A (en) * 1929-04-05 1933-05-02 William A Darrah Process of making boards and apparatus therefor
US2018382A (en) * 1934-10-24 1935-10-22 Hummel Ross Fibre Corp Art of ply paper or board manufacture
GB539226A (en) * 1938-12-02 1941-09-02 Defibrator Ab Felted fibrous boards and the like
US2286942A (en) * 1939-07-11 1942-06-16 Int Paper Co Method of manufacturing paper and/or board
US2335722A (en) * 1941-03-13 1943-11-30 Raymond W Adams Cementitious product
US2447161A (en) * 1943-06-28 1948-08-17 Cons Machine Tool Corp Apparatus for the manufacture of paper and other felted fibrous products
US2913365A (en) * 1954-12-01 1959-11-17 C H Dexter & Sons Inc Fibrous webs and method and apparatus for making same

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AT29226B (en) * 1905-11-04 1907-07-25 Carl Pohl Process for the production of panels from fibrous materials and hydraulic binders.
US1907046A (en) * 1929-04-05 1933-05-02 William A Darrah Process of making boards and apparatus therefor
US2018382A (en) * 1934-10-24 1935-10-22 Hummel Ross Fibre Corp Art of ply paper or board manufacture
GB539226A (en) * 1938-12-02 1941-09-02 Defibrator Ab Felted fibrous boards and the like
US2286942A (en) * 1939-07-11 1942-06-16 Int Paper Co Method of manufacturing paper and/or board
US2335722A (en) * 1941-03-13 1943-11-30 Raymond W Adams Cementitious product
US2447161A (en) * 1943-06-28 1948-08-17 Cons Machine Tool Corp Apparatus for the manufacture of paper and other felted fibrous products
US2913365A (en) * 1954-12-01 1959-11-17 C H Dexter & Sons Inc Fibrous webs and method and apparatus for making same

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3147178A (en) * 1961-05-18 1964-09-01 St Joe Paper Company Sulphate digestion process
US3151016A (en) * 1962-07-13 1964-09-29 Interchem Corp Method of making pressed fiber board
US3463685A (en) * 1967-06-26 1969-08-26 Int Paper Co Process for pre-treating facing sheets for gypsum boards
US4113554A (en) * 1976-02-03 1978-09-12 Rogers Corporation Method of manufacturing insulating board
US4726881A (en) * 1983-02-28 1988-02-23 Masonite Corporation Method of making wet process panels of composite wood material with semi-matching contoured pressure plates
FR2551779A1 (en) * 1983-09-12 1985-03-15 Stenay Papeterie METHOD FOR IMPROVING THE SURFACE CONDITION OF A FIBER PANEL
EP0138657A2 (en) * 1983-09-12 1985-04-24 Papeteries Sibille Stenay Process for improving the surface condition of a fibre board
EP0138657A3 (en) * 1983-09-12 1985-05-22 Papeteries Sibille Stenay Process for improving the surface condition of a fibre board
FR2647129A1 (en) * 1989-05-22 1990-11-23 Pym 71 Panel of vegetable fibres and its process of manufacture

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