WO2004067271A2 - Facing material with controlled porosity for construction boards - Google Patents
Facing material with controlled porosity for construction boards Download PDFInfo
- Publication number
- WO2004067271A2 WO2004067271A2 PCT/US2004/001284 US2004001284W WO2004067271A2 WO 2004067271 A2 WO2004067271 A2 WO 2004067271A2 US 2004001284 W US2004001284 W US 2004001284W WO 2004067271 A2 WO2004067271 A2 WO 2004067271A2
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- slurry
- facing
- cementitious
- board
- glass
- Prior art date
Links
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B3/00—Layered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar form; Layered products having particular features of form
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B19/00—Machines or methods for applying the material to surfaces to form a permanent layer thereon
- B28B19/0092—Machines or methods for applying the material to surfaces to form a permanent layer thereon to webs, sheets or the like, e.g. of paper, cardboard
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B17/00—Layered products essentially comprising sheet glass, or glass, slag, or like fibres
- B32B17/02—Layered products essentially comprising sheet glass, or glass, slag, or like fibres in the form of fibres or filaments
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- C—CHEMISTRY; METALLURGY
- C04—CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
- C04B—LIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
- C04B28/00—Compositions of mortars, concrete or artificial stone, containing inorganic binders or the reaction product of an inorganic and an organic binder, e.g. polycarboxylate cements
- C04B28/02—Compositions of mortars, concrete or artificial stone, containing inorganic binders or the reaction product of an inorganic and an organic binder, e.g. polycarboxylate cements containing hydraulic cements other than calcium sulfates
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D15/00—Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D15/00—Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used
- D03D15/40—Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used characterised by the structure of the yarns or threads
- D03D15/41—Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used characterised by the structure of the yarns or threads with specific twist
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D9/00—Open-work fabrics
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04C—STRUCTURAL ELEMENTS; BUILDING MATERIALS
- E04C2/00—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels
- E04C2/02—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by specified materials
- E04C2/04—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by specified materials of concrete or other stone-like material; of asbestos cement; of cement and other mineral fibres
- E04C2/043—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by specified materials of concrete or other stone-like material; of asbestos cement; of cement and other mineral fibres of plaster
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- C—CHEMISTRY; METALLURGY
- C04—CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
- C04B—LIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
- C04B2111/00—Mortars, concrete or artificial stone or mixtures to prepare them, characterised by specific function, property or use
- C04B2111/00474—Uses not provided for elsewhere in C04B2111/00
- C04B2111/00612—Uses not provided for elsewhere in C04B2111/00 as one or more layers of a layered structure
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- D—TEXTILES; PAPER
- D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B2101/00—Inorganic fibres
- D10B2101/02—Inorganic fibres based on oxides or oxide ceramics, e.g. silicates
- D10B2101/06—Glass
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- D—TEXTILES; PAPER
- D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
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- D10B2101/00—Inorganic fibres
- D10B2101/02—Inorganic fibres based on oxides or oxide ceramics, e.g. silicates
- D10B2101/08—Ceramic
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- D—TEXTILES; PAPER
- D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
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- D10B2101/10—Inorganic fibres based on non-oxides other than metals
- D10B2101/12—Carbon; Pitch
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- D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B2201/00—Cellulose-based fibres, e.g. vegetable fibres
- D10B2201/20—Cellulose-derived artificial fibres
- D10B2201/22—Cellulose-derived artificial fibres made from cellulose solutions
- D10B2201/24—Viscose
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- D—TEXTILES; PAPER
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- D10B2321/00—Fibres made from polymers obtained by reactions only involving carbon-to-carbon unsaturated bonds
- D10B2321/02—Fibres made from polymers obtained by reactions only involving carbon-to-carbon unsaturated bonds polyolefins
- D10B2321/021—Fibres made from polymers obtained by reactions only involving carbon-to-carbon unsaturated bonds polyolefins polyethylene
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- D10B2321/00—Fibres made from polymers obtained by reactions only involving carbon-to-carbon unsaturated bonds
- D10B2321/12—Fibres made from polymers obtained by reactions only involving carbon-to-carbon unsaturated bonds polymers of cyclic compounds with one carbon-to-carbon double bond in the side chain
- D10B2321/121—Fibres made from polymers obtained by reactions only involving carbon-to-carbon unsaturated bonds polymers of cyclic compounds with one carbon-to-carbon double bond in the side chain polystyrene
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- D10B2331/00—Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products
- D10B2331/02—Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products polyamides
- D10B2331/021—Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products polyamides aromatic polyamides, e.g. aramides
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- D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B2331/00—Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products
- D10B2331/04—Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products polyesters, e.g. polyethylene terephthalate [PET]
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- D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B2401/00—Physical properties
- D10B2401/06—Load-responsive characteristics
- D10B2401/063—Load-responsive characteristics high strength
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- D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B2505/00—Industrial
- D10B2505/20—Industrial for civil engineering, e.g. geotextiles
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- Y10S428/911—Penetration resistant layer
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- Y10T428/24802—Discontinuous or differential coating, impregnation or bond [e.g., artwork, printing, retouched photograph, etc.]
- Y10T428/24926—Discontinuous or differential coating, impregnation or bond [e.g., artwork, printing, retouched photograph, etc.] including ceramic, glass, porcelain or quartz layer
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- Y10T442/647—Including a foamed layer or component
- Y10T442/652—Nonwoven fabric is coated, impregnated, or autogenously bonded
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- Y10T442/60—Nonwoven fabric [i.e., nonwoven strand or fiber material]
- Y10T442/659—Including an additional nonwoven fabric
- Y10T442/66—Additional nonwoven fabric is a spun-bonded fabric
- Y10T442/662—Needled
Definitions
- This invention relates to improvements to cementitious boards useful in building construction, such as cement and gypsum sheathing for exterior insulation finishing systems EIFS, shaft walls, tile backers and fire walls.
- Cementitious boards useful in the construction industry are known to contain inorganic, hydraulically setting material, such as Portland cement or gypsum. Hydraulic gypsum and cement, once set, have very little tensile strength and are usually reinforced with facing materials which improve the resistance to tensile and torsional loads. This has been the basis for using paper facing on conventional -gypsum wall board and glass fiber scrim in cement boards.
- gypsum sheathing has been used outdoors in exterior insulation or finishing systems, with or without insulation layers, (sometimes referred to as "EIF systems"). These systems are designed to accept polystyrene insulation adhered to a glass-faced gypsum board, followed by brick, stone, a thin application of stucco, or siding, for example. Because of the exposure to the elements, these boards are often treated or impregnated with hydrophobic additives. Simply adding hydrophobic agents, such as asphalt, waxes, or siloxane to the core or paper facing, however, does not prevent delamination at the interface between the core and paper facing, nor does it prevent the paper from losing most of its strength due to water abso ⁇ tion over time.
- hydrophobic agents such as asphalt, waxes, or siloxane
- cementitious boards used in exterior sheathing applications should also be fire resistant, which limits the use of flammable facing materials. It has become essential, therefore, that the core, the interface, and the facing material, on the exposed side of these boards, retain their strength after exposure to wind, rain, snow, fire and ultraviolet light.
- moisture and fire resistance requirements also limit the use of paper facing. While paper can be treated with moisture vapor retarders and non-permeable barrier films, these layers impede water vapor from cementitious slurries from evaporating through the facing. This makes continuous board manufacturing with vapor impermeable films difficult, since the slurry must be allowed to evaporate the excess "water of convenience", which represents additional water used to facilitate a slurry, which is not used in hydration.
- gypsum boards which are prepared by depositing a plaster slurry on a sheet of inorganic fibers on a moving conveyor belt. A second sheet of similar fibers is pressed on top of the slurry, followed by guiding the sandwiched plaster slurry between rollers to cause a slurry to penetrate into the fibrous sheets at the surfaces of the slurry mass.
- a facing material for use in the manufacture of cementitious boards for building construction.
- the facing material includes a porous facing layer containing glass fibers, said facing layer substantially preventing a slurry of said cementitious material disposed on top o said facing layer from-substantially penetrating through its full thickness during the manufacture of said cementitious board.
- the porous spacing layer also permits the passage of water vapor from said slurry to pass therethrough.
- the facing materials of this invention provide cementitious boards, such as those made from Portland cement and gypsum, to achieve high strength and greater fire resistance than paper-faced boards.
- the most preferred facing materials are not substantially permeable to cementitious slurries, which have been known to contaminate rolls, and are preferably joined to the board's core in such a way so as to substantially eliminate delamination between the facing and the core, or between the layers of the facing material, if more than one layer is applied. While substantially reducing the penetration of a cementitious slurry, the facing materials of this invention still permit the passage of water vapor from the slurry to pass through, before and during the setting of the cementitious material.
- the facing materials, and boards manufactured using them are suitable for exterior grade sheathing containing a modified gypsum or cement core. They can contain exposed glass fibers on one or both sides for helping to join to adhesives, such as mortar, acrylic or silicone based adhesives, and glue, in exterior insulation finishing systems ("EIF") or tile acking applications, for example.
- the cementitious boards produced by this invention can contain a porous facing layer containing glass fibers on one or both faces, and can contain water- and fire- resistant additives in the facings, core, or both.
- An embodiment of a porous facing layer contains glass fibers having an average diameter of about 16 microns or less, said facing layer having
- An embodiment of a water- and fire-resistant facing material of this invention has an areal weight of at least about 15 grams/m 2 and desirably, has an areal weight of between about 30 and 150 grams/m . This areal weight is high enough to provide the board with the required physical properties such as stiffness, flexural strength, nail or screw holding capability, and dimensional stability. It is light enough to be economically transported when applied to a board, and handled by EIF or shaft wall system installers, without premature fatigue.
- the desirable properties of the facing layers and materials of this invention include being substantially impervious to the penetration of a slurry having a viscosity of about 300-10,000 cp at 70°F, having a screw holding value of at least about 20 lbs. when applied to a cementitious material, and an ASTM D309 tensile strength of at least about 20 psi in the machine direction, and at least about 5 psi in the cross-machine direction.
- a method of making a cementitious board for building construction includes the steps of (a) forming a slurry of cementitious material and water in a quantity greater than that required to set said cementitious material; (b) disposing said slurry on top of a first facing layer; wherein said first facing layer comprises a porous material containing glass fibers substantially resisting penetration of said slurry, and having a permeability for passage of water vapor from said slurry;(c) disposing a second facing layer on top of said slurry; and (d) setting said slurry to a set core, while water vapor from said slurry passes through said first facing layer.
- a water-resistant and first-resistant cementitious board useful in building construction includes a layer of said cementitious material sandwiched between a pair of facing layers, at least a first of said facing layers comprising glass fibers bonded together with a resinous binder composition having a hydrophilic or adhesive affinity toward said cementitious material when wet, said first facing layer having an air permeability rating of no greater than about 300 CFM/ft 2 so as to substantially prevent penetration of a slurry precursor of said cementitious material having a viscosity of less than 5,000 sp at 70°F, but permit water vapor from said slurry to pass therethrough.
- a facing material for gypsum boards which includes a first layer including an oriented fiber- containing layer which is porous to a gypsum slurry; and a second non-woven layer joined to said first layer, said second non-woven layer being less porous to said gypsum slurry than said first layer, and comprising randomly oriented fibers bonded with a resinous binder applied in excess of about 15% by weight of the fibers.
- This resinous binder does not inhibit adhesion of said facing material to said gypsum, and does not encourage "blocking" between adjacent pairs of said boards during storage.
- FIG. 1 is a front perspective view of a preferred facing material of this invention employing a plain weave
- FIG. 2 is an alternative facing material of this invention depicting a five-harness satin weave
- FIG. 3 is a further embodiment of the facing material of this invention depicting a uni-directional weave
- FIG. 4 is a further embodiment of the facing material of this invention depicting a full-width plain weave with selvage
- FIG. 5 is a diagrammatic, side elevational view of a proposed continuous manufacturing line for producing cementitious boards using the facing material of this invention
- FIG. 6 is a magnified view of a coated cementitious board of FIG.
- FIG. 7 is a loose full- width plain weave glass fabric prior to manipulation
- FIG. 8 is the full- width plain weave glass fabric of FIG. 7, after the glass fiber filaments have been electrostatically or mechanically manipulated;
- FIG. 9 is a front perspective, exploded view of a preferred composite facing material of this invention.
- Facing materials, cementitious boards and methods of manufacturing cementitious boards having the facing materials of this invention are provided. These facing materials have low areal weights, and substantially prevent the penetration of cementitious slurries, such as those containing Portland cement, mortar and gypsum, yet remain porous enough for water vapor to pass through easily.
- cementitious slurries such as those containing Portland cement, mortar and gypsum, yet remain porous enough for water vapor to pass through easily.
- cementitious material An inorganic hydraulically setting material, such as those containing one or more of: Portland cement, mortar, plaster, gypsum, and/or other ingredients, such as, foaming agents, aggregate, glass fibers, moisture repellants and moisture resistant additives and fire retardants.
- Composite facing material Two or more layers of the same or different materials including two or more layers of fabrics, cloth, knits, mats, wovens, non-wovens and/or scrims, for example.
- Barrier coat An exterior coating applied to a composite structure to provide protection.
- Fabric Woven or non-woven flexible materials, such as tissues, cloth, knits, weaves, carded tissue, spun-bonded and point-bonded non-wovens, needled or braided materials.
- Fiber A general term used to refer to filamentary materials. Often, fiber is used synonymously with filament. It is generally accepted that a filament routinely has a finite length that is at least 100 times its diameter. In most cases, it is prepared by drawing from a molten bath, spinning, or by deposition on a substrate.
- Filament The smallest unit of a fibrous material. The basic units formed during drawing and spinning, which are gathered into strands of fiber for use in composites. Filaments usually are of extreme length and very small diameter. Some textile filaments can function as a yam when they are of sufficient strength and flexibility.
- Glass An inorganic product of fusion that has cooled to a rigid condition without crystallizing. Glass is typically hard and relatively brittle, and has a conchoidal fracture.
- Glass cloth An oriented fabric which can be woven, knit, needled, or braided glass fiber material, for example.
- Glass fiber A fiber spun from an inorganic product of fusion that has cooled to a rigid condition without crystallizing.
- Glass Filament A form of glass that has been drawn to a small diameter and long lengths.
- Knitted fabrics Fabrics produced by interlooping chains of filaments, roving or yarn.
- Mat A fibrous material consisting of randomly oriented chopped filaments, short fibers, or swirled filaments loosely held together with a binder.
- Tex Linear density (or gauge) of a fiber expressed in grams per 1000 meters.
- Textile fibers Fibers or filaments that can be processed into yarn or made into a fabric by interlacing in a variety of methods, including weaving, knitting and braiding.
- Viscosity The property of resistance to flow exhibited within the body of a material, expressed in terms of the relationship between applied shearing stress and resulting rate of strain in shear. Niscosity is usually taken to mean Newtonian viscosity, in which case the ratio of sheathing stress to the rate of shearing strain is constant. In non-Newtonian behavior, the ratio varies with the shearing stress. Such ratios are often called the apparent viscosities at the corresponding shearing stresses. Niscosity is measured in terms of flow in Pa • s
- Warp The yarn, fiber or roving running lengthwise in a woven fabric. A group of yarns, fibers or roving in long lengths and approximately parallel.
- Woven fabric A material (usually a planar structure) constructed by interlacing yarns, fibers, roving or filaments, to form such fabric patterns as plain, harness satin, or leno weaves.
- Woven roving A heavy glass fiber fabric made by weaving roving or yarn bundles.
- Yarn An assemblage of twisted filaments, fibers, or strands, either natural or manufactured, to form a continuous length that is suitable for use in weaving or interweaving into textile materials.
- FIGS. 1-4 there is depicted a series of fabrics useful as the facing layer of the preferred facing material of this invention. Needled, woven, knitted and composite materials are preferred because of their impressive strength-to-weight ratio and, in the case of wovens and knits, their ability to form weft and warp yarn patterns which substantially resist the penetration of cementitious slurries.
- the facing layers of this invention can contain fibers and filaments of organic and inorganic materials
- the most preferred fibers contain glass, olefin (such as polyethylene, polystyrene and polypropylene), Kevlar®, graphite, rayon, polyester, carbon, ceramic fibers, or combinations thereof, such as glass-polyester blends or Twintex® glass-olefin composite, available from St. Gobain Corporation, France.
- glass compositions are the most desirable for their fire resistance, low cost and high mechanical strength properties.
- the conversion of molten glass in the forehearth into continuous glass fibers is basically an attenuation process.
- the molten glass flows through a platinum-rhodium alloy bushing with a large number of holes or tips (400 to 8000, in typical production).
- the bushing is heated electrically, and the heat is controlled very precisely to maintain a constant glass viscosity.
- the fibers are drawn down and cooled rapidly as they exit the bushing.
- a sizing is then applied to the surface of the fibers bypassing them over an applicator that continually rotates through the sizing bath to maintain a thin film through which the glass filaments pass. After the sizing is applied, the filaments are gathered into a strand before approaching the take-up device. If smaller bundles of filaments (split strands) are required, multiple gathering devices (often called shoes) are used.
- the attenuation rate, and therefore the final filament diameter is controlled by the take-up device. Fiber diameter is also impacted by bushing temperature, glass viscosity, and the pressure head over the bushing.
- the most widely used take-up device is the forming winder, which employs a rotating collet and a traverse mechanism to distribute the strand in a random manner as the forming package grows in diameter. This facilitates strand removal from the package in subsequent processing steps, such as roving or chopping.
- the forming packages are dried and transferred to the specific fabrication area for conversion into the finished fiberglass roving, mat, chopped strand, or other product. In recent years, processes have been developed to produce finished roving or chopped products directly during forming, thus leading to the term direct draw roving or direct chopped strand.
- Fiberglass roving is produced by collecting a bundle of strands into a single large strand, which is wound into a stable, cylindrical package. This is called a multi-end roving process. The process begins by placing a number of oven-dried forming packages into a creel. The ends are then gathered together under tension and collected on a precision roving winder that has constant traverse-to-winding ratio, called the waywind.
- Roving are used in many applications of this invention.
- Woven roving is produced by weaving fiberglass roving into a fabric form. This yields a coarse product that is used in continuous board manufacturing.
- the course surface is ideal for stucco and adhesive applications, such as EIF systems, since these material can bind to the coarse fibers easily.
- Plain or twill weaves are less rough, thereby being easier to handle without protective gloves, but will absorb stucco and adhesive. They also provide strength in both directions, while a unidirectionally stitched or knitted fabric provides strength primarily in one dimension.
- Many novel fabrics are currently available, including biaxial, double bias, and triaxial weaves for special applications.
- Combinations of fiberglass mat, scrim, chopped fibers and woven or knit filaments or roving can also be used for the facing layers of this invention.
- the appropriate weights of fiberglass mat (usually chopped-strand mat) and woven roving filaments or loose chopped fibers are either bound together with a chemical binder or mechanically knit, needled felted or stitched together.
- One suitable combination would be a fiberglass and/or resin fiber mat or scrim layered with chopped glass or resin fibers and then needled, felted or stitched together to decrease porosity.
- These facing materials can have uniform porosity or non- uniform porosity in either the x, y, or z planar directions. For example, as in U.S. Pat. Nos.
- a porosity gradient can be made within a composite facing to allow partial penetration of the slurry.
- the coating or saturant such as a latex resin or wetting or non-wetting agent, can be unevenly applied through the facing thickness to allow partial penetration of the slurry.
- One example could be to coat the slurry facing side with a low contact angle surface treatment and the outer-facing side with a resinous saturant or high contact angle treatment or hydrophobic agent, for example.
- Fiberglass paper can also be used for the facing layers of this invention, so long as it is relatively impervious to slurry and pervious to water vapor.
- Chopped strands of 25 to 50 mm (1- to 2-in.) lengths are usually used in making fiberglass paper.
- chopped fibers are dispersed in a water to form a dilute solution.
- the fiberglass strands filamentize during the mixing and dispersion process.
- the solution is pumped onto a continuously moving chain or belt, where most of the water is removed by vacuum, leaving behind a uniformly distributed, thin fiberglass mat.
- a binding resin is added on-line, followed by drying and curing, to form the fiberglass paper.
- the yams of the facing layers of this invention can be made by conventional means. Fine-fiber strands of yarn from the forming operation can be air dried on forming tubes to provide sufficient integrity to undergo a twisting operation. Twist provides additional integrity to yarn before it is subjected to the weaving process, a typical twist consisting of up to one turn per inch, hi many instances heavier yams are needed for the weaving operation. This is normally accomplished by twisting together two or more single strands, followed by a plying operation. Plying essentially involves retwisting the twisted strands in the opposite direction from the original twist. The two types of twist normally used are known as S and Z, which indicate the direction in which the twisting is done.
- Zero twist-yarns may also be used. This input can offer the ease of spreading of (twistless) roving with the coverage of fine-filament yams.
- n (490 x Tex) / d , where "d" is the individual filament diameter expressed in microns.
- the major characteristics of the woven facing embodiments of this invention include its style or weave pattern, fabric count, and the construction of warp yarn and fill yarn. Together, these characteristics determine fabric properties such as drapability and performance in the final board.
- the fabric count identifies the number of warp and fill yarns per inch. Warp yams run parallel to the machine direction, and fill yarns are perpendicular.
- Plain weave is the simplest form, in which one warp yarn interlaces over and under one fill yam. Basket weave has two or more warp yams interlacing over and under two or more fill yams. Twill weave has one or more warp yams over at least two fill yarns. Satin weave (crowfoot) consists of one warp yarn interfacing over three and under one fill yam, to give an irregular pattern in the fabric.
- the eight harness satin weave is a special case, in which one warp yarn interlaces over seven and under one fill yam to give an irregular pattern. In fabricating a board, the satin weave gives the best conformity to complex contours, such as around comers, followed in descending order by twill, basket, and plain weaves.
- Texturizing is a process in which the textile yarn is subjected to an air jet that impinges on its surface to make the yam "fluffy".
- the air jet causes the surface filaments to break at random, giving the yam a bulkier appearance.
- the extent to which this occurs can be controlled by the velocity of the air jet and the yarn feed rate.
- An equivalent effect can be produced by electrostatic or mechanical manipulation of the fibers, yams or roving.
- the fabric pattern often called the construction, is an x, y coordinate system.
- the v-axis represents warp yarns and is the long axis of the fabric roll (typically 30 to 150 m, or 100 to 500 ft.).
- the -axis is the fill direction, that is, the roll width (typically 910 to 3050 mm, or 36 to 120 in.).
- Basic fabric structures include those made by woven, non-woven and knit processes.
- one preferred design is a knit structure in which both the x axis strands and the y axis strands are held together with a third strand or knitting yam. This type of knitting is weft-inserted- warp knitting. If an unshifted tricot stitch is used, the s and y axis strands are the least compressed and, therefore, give the best coverage at a given areal weight.
- This structure's coverage can be further increased, i.e., further reduction in porosity, by using near-zero-twist-yarn or roving which, naturally, spreads more than tightly twisted yam.
- This design can be further improved by assisting the spreading of filaments by mechanical (needling) means, or by high-speed air dispersion of the filaments before or after fabric formation.
- the essential constmction requires only four weaving yams: two warp and two fill. This basic unit is called the pattern repeat.
- Plain weave (10) which is the most highly interlaced, is therefore the tightest of the basic fabric designs and most resistant to in-plane shear movement.
- Basket weave a variation of plain weave, has warp and fill yams that are paired: two up and two down.
- the satin weave (15) represent a family of constmctions with a minimum of interlacing, hi these, the weft yams periodically skip, or float, over several warp yarns, as shown in Fig. 2.
- the satin weave (15) repeat is x yams long and the float length is x-1 yarns; that is, there is only one interlacing point per pattern repeat per yarn.
- the floating yarns that are not being woven into the fabric create considerable looseness or suppleness.
- the satin weave (15) produces a constmction with low resistance to shear distortion and is thus easily molded (draped) over common compound curves. Satin weaves can be produced as standard four-, five-, or eight-harness forms. As the number of harnesses increases, so do the float lengths and the degree of looseness making the fabric more difficult to control during handling operations. Textile fabrics generally exhibit greater tensile strength in plain weaves, but greater tear strength in satin weaves.
- the ultimate mechanical properties are obtained from unidirectional-style fabric (14) (Fig. 3), where the carrier properties essentially vanish when attached to a set core (101).
- a plain weave (16) having glass weft (11) and warp (12) yams or roving, in a weave construction is known as locking leno (Fig. 4), which is used only in special areas of the fabric, such as the selvage (13), and is woven on a shuttleless loom.
- the gripping action of the intertwining leno yams anchors or locks the open selvage edges produced on rapier looms.
- the leno weave helps prevent selvage (13) unraveling during subsequent handling operations.
- the design of glass fabrics suitable for this invention begins with only a few fabric parameters: type of fiber, type of yearn, weave style, yarn count, and areal weight.
- Fiber finish is also important because it helps lubricate and protect the fiber as it is exposed to the sometimes harsh weaving operation.
- the quality of the woven fabric is often detemiined wholly by the type and quality of the fiber finish.
- the finish of choice is usually dictated by end-use and resin chemistry, and can consist of resinous materials, such as epoxy.
- Such fabric should have an air permeability rating of between 10 and 300 CFM/ft 2 (FG436-910 test method) and preferably about 10- 200 CFM/ft 2 , and/or can substantially reduce the penetration of slurries, having viscosities of about 300-10,000 CP at 70°F, preferably less than 5,000 CP, and most preferably about 1,000-4,000 CP.
- the preferred facing material should also possess an ASTM D309 tensile strength of at least about 20 psi in the machine direction and about 5 psi in the cross-machine direction.
- blends such as Twintex® glass-polyolefin blends produced by Saint-Gobain S.A., or individual multiple layers of polymers, elastomerics, rayon, polyester and glass filaments can be used as roving or yam for the facing material, or as additional bonded or sewn layers of woven, knitted felt or non-woven layers.
- a light weight thermoplastic, thermoset and/or glass fiber layer such as a woven fabric, knit fabric, non-woven tissue, paper, needled layer or mat, could be laminated, adhered, needled, sewn knitted, woven, melt bonded, or joined using a combination of these techniques, with a stronger, more porous layer, such as a polymeric or glass scrim (104), or loose knitted or woven substrate, as shown in FIG. 9, to provide both slurry penetration resistance and core reinforcement.
- a polymeric or glass scrim 104
- FIG. 9 See Altenhofer et al., U.S. Pat. No. 4,504,533, or Knauf et al., U.S. Pat. No. 3,993,822, which are both hereby incorporated by reference.
- the scrim (104) can be a woven open mesh, or non- woven generally transverse and longitudinal fibers joined at cross-over points with or without adhesive binder or sizing, and containing fibers, rovings or yard, for example.
- the denser, light weight layer (111) provides only limited or negligible penetration of gypsum or cement slurry, while the scrim (104) can be embedded in the core (l ⁇ l)to provide good mechanical adherence to the core (101), and greater overall strength to the board (100).
- the scrim (104) can reinforce the light weight denser layer prior to adherence to the core (101), the light weight, denser layer (111) can be inexpensive and need not possess the tensile strength required to withstand the rigors of a continuous cementitious board manufacturing line by itself. As such, the scrim (104) acts to reinforce the light weight, denser layer (111) to resist distortion of said layer and, naturally, the overall facer layer itself, during continuous board manufacturing.
- an additional light weight layer (117) can be applied to the set core facing side of the scrim (104). Light weight layers (111) and (117) need not be the same density, nor contain the same fibrous material, and each may or may not be impregnated or coated.
- a light weight layer (117) and woven layer or scrim (104) as the face or faces of a cementitious board (100) of this invention
- preferred designs employ a light weight layer (117) employing a random oriented glass mat bound together with a resinous binder, such as glass fibers in sizes: K-fiber (13 microns); H-fiber (10 microns); or M-fiber (16 microns), or less.
- random oriented mats manufactured with H-fibers are nearly twice as dense as random oriented mats manufactured with M-fibers at the same areal weight, preferably about 1-3 lbs/per 100 ft 2 , more preferable about 1.8 lbs/100 ft 2 .
- the scrim (104) can be lighter or heavier in weight than the light weight layer (117), and is preferably joined to the light weight layer (117) by adhesive, such as by the core or a resin binder, or mechanically joined, such as by sewing, needling, etc.
- Random oriented glass mats are generally made by a wet process in which individual or continuous fibers are disposed in a slurry and collected on a screen or porous belt for de- watering. The de-watered fibers are then subjected to a cascade waterfall of binder (also called a "sizing"), which is applied to the fibers and suctioned through it.
- a cascade waterfall of binder also called a "sizing”
- the glass fibers can be wet processed or further supplemented with thermoplastic fibers which can be melted into the random oriented glass fibers to provide a resin binder.
- a typical binder/glass wool loading is about 3-15 wt%, but this invention anticipates using in excess of 15 wt.% binder, and preferably greater than 20 wt.%, and most preferably about 25-30 wt% binder in the facing layer or layers, such as the above-described random oriented glass mat, for providing desirable properties, such as slurry penetration resistance, adherence to the core (101) or other layers or materials, hydrophobic or hydrophilic properties, or a combination of these properties.
- Such binders are not a barrier coating and will enable water vapor to pass through the facing during board manufacturing.
- binders also preferably do not completely coat the exterior facing fibers, so as to enable attachment to factory or field applied coatings or adhesives such as Portland cement based mortar, acrylic adhesive, silicon adhesive and glue on the outer surface of the cementitious board.
- the selected binders should also minimize "blocking" (adhesive bonding between adjacent boards during storage).
- Various binders are appropriate for this purpose, such as, for example, phenolic binders, ureaformaldehyde resin, or ureaformaldehyde resin modified with acrylic, styrene acrylic, with or without carboxylated polymers as part of the molecule, or as a separate additive. Additionally, these binders can be provided with additives, such as UN and mold inhibitors, fire retardants, etc. Carboxylated polymer additions to the binder resin can promote greater affinity to set gypsum, or to
- Portland cement-based mortars for example, but are less subjected to blocking than resins without such additions.
- One particularly desirable binder resin composition is a 70 wt% ureaformaldehyde resin-30 wt% styrene acrylic latex or an acrylic latex mixture, with a carboxylated polymer addition.
- the preferred composite facing should also include a scrim (104) or a woven or knit stracture that is porous to gypsum or cement slurries.
- the scrim (104) contains a 6x6 ends/inch simple weave or bonded lattice stracture, although sizes from about 4x4 through about 10x10 ends/inch will be acceptable.
- the preferred fiber size for the scrim (104) is about 68 tex (G75; EC968)which is both economical and broadly available.
- the scrim (104, or equivalent layer can also contain a sizing, which is chemically the same or different from those described above. It is understood that the sizings applied to light weight layer (117) and scrim (104) could be custom designed for end use applications.
- the scrim (104) could be treated with a carboxylated styrene acrylic or acrylic blend having greater affinity to a gypsum core, while the binder resin of the light weight layer (117) might be treated with a hydrophobic additive, to resist slurry penetration.
- Other additives and resin compositions suggested herein as being useful in the cementitious core (101) and coating or saturant (107), could also be employed in the binder.
- the substrates or layers of this invention useful in construction of the porous facing layers can be further treated or saturated prior to adhering these layers to a core material in order to further reduce porosity, to resist slurry penetration, and to reduce the "fuzziness" of the surface, which can lead to some itching during repeated handling.
- Resinous coatings and saturants (107) are distinguished from the sizing or binder used to bond the fibers together to form the individual layers, as described above. Coatings and saturants (107) can include those described in U.S. Pat. 4,640,864, which is hereby incorporated by reference, and are preferably water-resistant and/or fire-retardant in nature.
- the saturant or coating (107) applied to the porous facing layers, as shown in FIG. 6, of this invention preferably coats a portion of the fibers and reduces the porosity of the facing layer.
- the saturant or coating (107) can increase or decrease the wetting angle of the gypsum slurry to reduce penetration or increase adhesion.
- the saturant or coating (107) can further contain a UN stabilizer, mold retardant, water repellant, a flame retardant and/or other optional ingredients, such as dispersants, catalysts, fillers and the like.
- the saturant or coating (107) is in liquid form and the facing material is led through the liquid, or the liquid is sprayed (with or without a water spray precursor) on one or both sides of the facing material.
- a resin which is adherent to gypsum can be applied to only the core facing side of light weight layer (117) and entirely around the scrim (104) to promote adhesion to the core (101). Thereafter, the facing material may be squeezed and dried.
- Various methods of applying the liquid may be used, including dip- coaters, doctor blade devices, roll coaters and the like.
- One preferred method of treating the facing material with the resinous coatings or saturants (107) of this invention is to have a lower portion of one roll partially submerged in a trough of the liquid resinous composition and the facer material pressed against the upper portion of the same roller so that an amount of the resinous composition is transferred to the facer material.
- the second roller above the first roller controls the movement of the facer material and the uniformity of the amount of resinous coating or saturant (107) disposed thereon. Thereafter, the coated facer material is led in a preferred method to steam cans to expedite drying.
- the coated facer material passes the coated facer material over steam cans at about 250-450°F (100-200°C) which drives the water off, if a latex is used, and additionally may cause some flow of the liquid resinous material to further fill intersticies and reduce porosity in the facer material, as well as coat further and more uniformly fibers within the facer material.
- the coating preferably covers about 50-80% of the surface area targeted, more preferably about 80-95% of said area; 100% coverage is less desirable due to blow offs and blistering due to steam generated during the setting of gypsum products.
- the saturated facing can be somewhat impermeable to liquid water, but is porous to water vapor, whether wet or dry, and is not considered a water vapor retarder or barrier.
- the preferred saturant or coatings (107) of this invention can contain a resinous mixture containing one or more resins.
- the resin can contain solid particles or fibers which coalesce or melt to form a continuous or semi- continuous coating which substantially prevents the penetration of liquid moisture, but permits water vapor to pass through the cross section of the facing layer.
- the coating can be applied in various thicknesses, such as for example, to sufficiently cover the fibrous constituents of the facing layer so that no fibers protrude from the coating or saturant, or to such a degree that the fibers protrude from the coating or saturant so that they can be used to join to additional layers in a EIF system or to tile, for example.
- the resinous coating or saturant forms a liquid water barrier which protects the rolls and other equipment during the manufacture of a cementitious board, and which can later, optionally, protect the underlying set gypsum from moisture during storage or use.
- the resinous coating or saturant (107) can comprise a thermoplastic or a thermoset resin. Numerous commercially available resins which are effective in forming water- or weather-resistant coatings are available.
- the preferred coating or saturant (107) of this invention is optionally capable of forming a coating having a surface water abso ⁇ tion value of no greater than about
- boards should also absorb less than 10 wt.%, preferably less than 5 wt.% . water when tested in accordance with the immersion test of ASTM method C-473, when a water resistant core formulation is used.
- the coating or saturant (107) of this invention can be formed substantially by the water-resistant resin, but good results can also be achieved by forming the coating or saturant from a mixture of resin and fillers, such as silicates, silica, gypsum, titanium dioxide and calcium carbonate.
- the saturant or coating (107) can be applied in latex or curable thermosetting form.
- Acceptable resins include styrene-acrylic copolymer, acrylics, flame retardant acrylics or brominated monomer additions to acrylic, such as Pyropoly AC2001, poly( inyl acetates), poly(vinyl alcohols), vinylidene chloride, siloxane, and polyvinylchloride such as Vycar® 578.
- fire retardants such as bromated phosphorous complex, halogenated paraffin, colloidal antimony pentoxide, borax, unexpanded vermiculite, clay, colloidal silica and colloidal aluminum can be added to the resinous coating or saturant.
- water resistant additives can be added, such as paraffin, and combinations of paraffin and ammonium salt, fluorochemicals designed to impart alcohol and water repellency, such as FC-824 from 3M Co., organohydrogenpolysiloxanes, silicone oil, wax-asphalt emulsions and poly(vinyl alcohol) with or without a minor amount a minor amount of poly(vinyl acetate).
- fluorochemicals designed to impart alcohol and water repellency such as FC-824 from 3M Co.
- organohydrogenpolysiloxanes such as silicone oil, wax-asphalt emulsions and poly(vinyl alcohol) with or without a minor amount a minor amount of poly(vinyl acetate).
- the saturant and coatings can include pigment, such as kaolin clay, or lamp black thickeners such as modified bentonite clay, defoamers, such as fatty acid/polyglycol mixtures , UV resistance additives, setting accelerators, such as clay compounds, polyacrylamide, potassium salts, or combinations thereof, and dispersants such as sodium polyacrylate.
- pigment such as kaolin clay, or lamp black thickeners such as modified bentonite clay
- defoamers such as fatty acid/polyglycol mixtures
- setting accelerators such as clay compounds, polyacrylamide, potassium salts, or combinations thereof
- dispersants such as sodium polyacrylate.
- Known preservatives and, of course, water can be added in latex compositions, and solvents in thermosetting compositions. (See, for example, U.S. 4,640,864, which includes insulation boards including polyvinylchlori.de based coatings including fire- and water-repellants, and which is hereby inco ⁇ orated
- some preferred laminate constructions can include coatings or saturants which assist in either joining the laminate to the set core (101), or assist it to reduce porosity to resist slurry penetration, and/or helping it to reduce irritation to workers.
- One laminate that evidences promise includes a laminate made from a polyvinyl alcohol coated fiberglass scrim (104), which is laminated using a polyvinyl alcohol binder to a fiberglass mat or tissue (111). The mat or tissue layer may or may not be saturated with the polyvmyl alcohol resin.
- a laminate is fabricated from a polyvinyl alcohol coated fiberglass scrim (104), which is laminated using a fire resistant and ultraviolet resistant acrylic binder to a fiberglass mat or tissue.
- the mat or tissue may or may not be saturated with an acrylic binder.
- cementitious boards (100) can be manufactured in any number of ways, including molding, extrusion, and semi-continuous processes employing rollers and segments of the glass fabrics of this invention.
- the cementitious board (100) includes a set core (101), made of set gypsum or Portland cement, for example.
- the set core (101) can also optimally contain fillers, reinforcing fiber (102) and performance additives (103).
- Reinforcing fibers (102) desirably include chopped fibers of no greater than about two inches in length used to reinforce the set core (101).
- Such fibers (102) can include, for example, Kevlar®, glass, polyolefin, and cellulosic fibers, such as straw or paper fiber.
- Performance additives (103) can include water resistant additives such as silicone, and fire resistant additives such as borax, as well as the other water-and fire-resistant additives discussed above in connection with the resinous saturant or coating of the facing layer.
- the composition from which the . set core (101) is made can further include optional constituents, including, for example, those included in gypsum and cement exterior sheathing. Examples of such constituents include set accelerators, foaming agents, and dispersing agents.
- Examples of materials which have been reported as being effective for improving the water-resistant properties of cementitious products either as a coating (107) or performance additive (103) are the following: poly( vinyl alcohol), with or without a minor amount of poly( vinyl acetate); metallic resinates; wax or asphalt or mixtures thereof; a mixture of wax and/or asphalt and also corn-flower and potassium permanganate; water insoluble thermoplastic organic materials such as petroleum and natural asphalt, coal tar, and thermoplastic synthetic resins such as poly( vinyl acetate), polyvinylchloride and a copolymer of vinyl acetate and vinyl chloride and acrylic resins; a mixture of metal rosin soap, a water soluble alkaline earth metal salt, and residual fuel oil; a mixture of petroleum wax in the form of an emulsion and either residual fuel oil, pine tar or coal tar; a mixture comprising residual fuel oil and rosin, aromatic isocyanates and disocyanates; organohydrogenpolysiloxanes and other silicones, acrylics,
- the core (101) may be formed by mixing water with powdered anhydrous calcium sulfate or calcium sulfate hemidrate (Ca-
- SO Y_ ⁇ ._ff also known as calcined gypsum, and thereafter allowing the mixture to hydrate or set into calcium sulfate dihydrate (CaSO 2H 2 0), a relatively hard material.
- the set core (101) of the support member will in general comprise at least about 85 wt. % set gypsum or cement.
- the surface of the set core (101) is faced with one or more layers of the facing material.
- the facing material should be sufficiently porous to permit water in the aqueous slurry from which the core (101) is made to evaporate therethrough.
- the cementitious board (100) in the present invention can be made efficiently by forming an aqueous slurry which contains excess water and placing thereon the facing material. Aided by heating, excess water evaporates through the preferred upper and lower glass fabric facings (105) and (106) as the cementitious slurry (28) sets.
- the cementitious board (100) can be made utilizing existing wallboard manufacturing lines, for example, as shown somewhat diagrammatically in FIG. 5.
- dry ingredients (not shown) from which the set core (101) is formed are pre-mixed and then fed to a mixer of the type commonly referred to as a pin mixer (30).
- Water and other liquid constituents (not shown) used in making the core (101) are metered into the pin mixer (30) where they are combined with the dry ingredients to form an aqueous cementitious slurry (28).
- Foam is generally added to the slurry in the pin mixer (30) to control the density of the resulting set core (101).
- the facing material of this invention permits the use of lower viscosity slurries to be employed than would be expected when making gypsum or cement products with glass mats.
- viscosity control agents such as cellulosic thickeners, bentonite clays, starches and gypsum whisker fibers, are employed to provide a gypsum slurry of about 5,000 - 7,000 (Brookfield test at 70°F at 10 ⁇ m using a No. 3 paddle).
- the present invention due to the slurry penetration resistance of the preferred facing material, can employ slurry viscosities of substantially less than 5000 cp, and preferably about 1,000-4,000 at 70°F, depending upon the product selected and whether the top or the bottom or both facing material is selected to be gypsum or cement free, and/or resistant to slurry and liquid water penetration.
- the cementitious slurry (28) thus formed is dispersed through one or more outlets at the bottom of the pin mixer (30) onto a moving bottom glass fabric (22) which optionally may contain one or more layers of the facing material of this invention.
- a sheet of top glass fabric (32) is fed from the top glass fabric roll (29) onto the top of the cementitious slurry (28), thereby sandwiching the slurry between the two moving fibrous mats which form the facings of the set core (101) which is formed from the cementitious slurry (28).
- the bottom and top glass fabrics (22) and (32), with the cementitious slurry (28) sandwiched therebetween enter the nip between the upper and lower forming or shaping rolls (34) and (36) and are thereafter received on a conveyer belt (38).
- Conventional wallboard edge guiding devices (40) shape and maintain the edges of the composite until the slurry has set sufficiently to retain its shape.
- Water of convenience, or excess water can be drained with the assistance of vacuum boxes (42) disposed below the conveyor belt (38). In due course, sequential lengths of the board are cut by a water knife (44).
- the cementitious board (100) is next moved along feeder rolls (46) to permit it to set. It is further processed by exposure to heat in a drying oven (48) which accelerates the drying of the board by increasing the rate of evaporation of excess water.
- An additional sprayer (49) can be provided to add further treatments, such as silicone oil or fire retardants, to the board's exterior.
- the facing materials and cementitious boards (100) of this invention are useful in all sorts of building construction applications. They are strong, having a screw strength of at least about 20 lbs., for gypsum cores of conventional densities and compositions. Some examples include shaft wall assemblies for elevators and stairways, fire doors and fire walls, roofing and siding substrates, with or without insulation, and tile backer boards.
- EIF systems also called EIF systems for Exterior Insulation Finishing Systems.
- the essential components of an EIF system include some form of insulating material which is sandwiched between an underlying support surface and an exterior finishing material which can be an integral part of the insulating material, but is usually applied to the insulating material at the site of installation. Cementitious boards including the facing material of this invention are particularly useful for the support surface. From one EIF system to the next, there exists various structural details and components. For example, although the exterior finishing material may be affixed directly to the insulating material, various systems include a reinforcing component sandwiched between the exterior finishing material and the insulating material.
- the reinforcing component comprises generally one or more plies of fiberglass reinforcing fabric or mesh which is adhered by suitable mastic to the surface of the insulating material.
- the support surface is affixed to a wooden frame attached to the exterior surface of the outside wall of a building, whereas in other systems a metal frame is used.
- the support surface may be affixed directly to the exterior surface of an outside wall, for example, one comprising cinder blocks or concrete blocks, hi new construction, the support surface is typically affixed directly to the frame of the building.
- the adhesive or mastic for adhering together components of the system tends to vary from one system to the next, and typically comprises specially formulated proprietary compositions.
- the most popularly used insulating material in EIF systems is expanded or foamed polystyrene, a material which has good moisture resistant properties. Although is has desirably low water vapor transmission, it is not a vapor barrier, but instead is capable of breathing.
- Rigid panels of expanded' polystyrene are used most widely in EIF systems. Such panels have satisfactory compressive strength and resilience and are presently available in thicknesses ranging from Y_ to 6 inches, widths from 6 to 48 inches and lengths ranging from 4 feet to 16 feet.
- One commercially available system utilizes rigid, expanded polystyrene panels which are 2' x 4' x 1".
- thermal insulating materials can be used in EIF systems also. Examples of such materials include extruded polystyrene, polyurethane, isocyanurate, cement-based insulating plasters, and phenolic foam. Insulating materials generally have low thermal conducting and low density.
- various EIF systems include a reinforcing component, for example, in cloth form, sandwiched between the insulating material and the exterior finishing material.
- Glass cloth is most widely used at the present time to reinforce the system, that is, to improve the impact strength of the system.
- the particular type or types of glass cloth used and the number of plies thereof which are used depend on the impact resistance which is desired.
- Examples of reinforcing cloth or fabric which can be used in the system are woven glass, glass fiber scrim and glass fiber mesh.
- Installation of the reinforcing fabric generally involves applying a suitable adhesive to the surface of the insulating material and then applying the fabric thereto. Additional plies of fabric can be applied if desirable.
- a cement/acrylic resin is an example of an adhesive that can be used.
- the exterior finishing material can be affixed directly to the insulating material or to an intermediate surface such as, for example, the surface of a reinforcing member as described above.
- the exterior finishing material should have weathering characteristics and is preferably appealing in appearance.
- the most widely used exterior finish is an acrylic resin-based composition which is available in a paste-type form which is spread or troweled on the underlying substrate.
- One type of such composition can be described as a ready-mixed synthetic resin plaster. After application, the resin sets to form a tough, weather-resistant solid material which adheres tightly to the underlying substrate.
- Such resin compositions are available commercially in a variety of colors. They include optional aggregate which can vary in size.
- the applicator allows the applicator to choose a particular composition which permits him to apply a finish that can vary in texture from fine to coarse. Finishes which have a stucco-like appearance are popular. Small stones of various colors can be embedded in the composition for decorative pu ⁇ oses. Examples of other materials that can be used as an exterior finish are Portland cement stucco including, for example, sand and larger aggregate.
- the exterior finish can vary in thickness over a wide range, with a thickness of about 1/16" to about V" being exemplary.
- this invention provides facing materials for cementitious boards which are lightweight, exhibit high strength in combination with set cementitious core materials, and which remain porous to water vapor.
- the preferred glass fabric facings of this invention bond to set gypsum and Portland cement to form a strong integral stracture, yet can present a textured surface for joining to other layers of EIF systems, such as, for example, adhesive bonding to polystyrene insulation.
- the woven, knitted or needled exterior surface of the preferred textile fiber fabrics is also easier to handle by construction workers, and will not lead to as much injury or irritation as chopped fiber glass mats having exposed sha ⁇ individual fibers.
Abstract
Description
Claims
Priority Applications (9)
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EP20040703588 EP1595012B1 (en) | 2003-01-21 | 2004-01-20 | Facing material with controlled porosity for construction boards |
NZ541275A NZ541275A (en) | 2003-01-21 | 2004-01-20 | Facing material with controlled posority for used in the manufacture of a cementitious board |
MX2008005791A MX366513B (en) | 2003-01-21 | 2004-01-20 | Facing material with controlled porosity for construction boards. |
CA 2513508 CA2513508C (en) | 2003-01-21 | 2004-01-20 | Facing material with controlled porosity for construction boards |
JP2005518828A JP2006517268A (en) | 2003-01-21 | 2004-01-20 | Cement board, gap adjustment exterior material |
DE200460028343 DE602004028343D1 (en) | 2003-01-21 | 2004-01-20 | FAIRING MATERIAL WITH CONTROLLED POROSITY FOR BUILDING PLATES |
AU2004207774A AU2004207774B2 (en) | 2003-01-21 | 2004-01-20 | Facing material with controlled porosity for construction boards |
CN2004800050522A CN1754015B (en) | 2003-01-21 | 2004-01-20 | Facing material with controlled porosity for construction boards |
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US10/348,489 US7049251B2 (en) | 2003-01-21 | 2003-01-21 | Facing material with controlled porosity for construction boards |
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- 2004-01-20 DE DE200460028343 patent/DE602004028343D1/en not_active Expired - Lifetime
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- 2004-01-20 CN CN2004800050522A patent/CN1754015B/en not_active Expired - Fee Related
- 2004-01-20 AU AU2004207774A patent/AU2004207774B2/en not_active Ceased
- 2004-01-20 MX MX2008005791A patent/MX366513B/en unknown
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- 2004-01-20 NZ NZ541275A patent/NZ541275A/en unknown
- 2004-01-20 JP JP2005518828A patent/JP2006517268A/en active Pending
- 2004-01-20 CA CA 2513508 patent/CA2513508C/en not_active Expired - Lifetime
- 2004-01-20 MX MXPA05007692A patent/MXPA05007692A/en active IP Right Grant
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2005
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- 2005-11-16 US US11/280,910 patent/US7300515B2/en not_active Expired - Lifetime
-
2009
- 2009-02-09 JP JP2009027063A patent/JP5019481B2/en not_active Expired - Fee Related
- 2009-02-09 JP JP2009027067A patent/JP5019482B2/en not_active Expired - Fee Related
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2010
- 2010-01-28 JP JP2010016097A patent/JP5019486B2/en not_active Expired - Fee Related
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1801278A1 (en) * | 2005-12-21 | 2007-06-27 | Johns Manville | Coated nonwoven mat |
US10344478B2 (en) | 2013-08-27 | 2019-07-09 | Axalta Coating Systems Ip Co., Llc | Coating and binder compositions for gypsum boards |
US9945119B2 (en) | 2016-07-28 | 2018-04-17 | United States Gypsum Company | Methods for making gypsum boards with polymer coating and gypsum boards made by the method |
Also Published As
Publication number | Publication date |
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NZ541275A (en) | 2008-12-24 |
AU2004207774A1 (en) | 2004-08-12 |
AU2004207774B2 (en) | 2007-07-12 |
ES2349370T3 (en) | 2010-12-30 |
JP2006517268A (en) | 2006-07-20 |
MXPA05007692A (en) | 2006-05-25 |
JP5019482B2 (en) | 2012-09-05 |
WO2004067271A3 (en) | 2004-10-21 |
JP2009174310A (en) | 2009-08-06 |
US7300515B2 (en) | 2007-11-27 |
DE602004028343D1 (en) | 2010-09-09 |
JP2009149510A (en) | 2009-07-09 |
US20040142618A1 (en) | 2004-07-22 |
EP1595012A4 (en) | 2007-11-14 |
US20060105653A1 (en) | 2006-05-18 |
CA2513508C (en) | 2009-04-21 |
US20060065342A1 (en) | 2006-03-30 |
CN1754015A (en) | 2006-03-29 |
CN1754015B (en) | 2011-10-05 |
EP1595012B1 (en) | 2010-07-28 |
US7049251B2 (en) | 2006-05-23 |
JP5019486B2 (en) | 2012-09-05 |
CA2513508A1 (en) | 2004-08-12 |
JP2010156196A (en) | 2010-07-15 |
MX366513B (en) | 2019-07-11 |
EP1595012A2 (en) | 2005-11-16 |
JP5019481B2 (en) | 2012-09-05 |
US7300892B2 (en) | 2007-11-27 |
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