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NZ744920B2 - Mineral fiber based ceiling tile - Google Patents
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NZ744920B2 - Mineral fiber based ceiling tile - Google Patents

Mineral fiber based ceiling tile Download PDF

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Publication number
NZ744920B2
NZ744920B2 NZ744920A NZ74492016A NZ744920B2 NZ 744920 B2 NZ744920 B2 NZ 744920B2 NZ 744920 A NZ744920 A NZ 744920A NZ 74492016 A NZ74492016 A NZ 74492016A NZ 744920 B2 NZ744920 B2 NZ 744920B2
Authority
NZ
New Zealand
Prior art keywords
basemat
mineral fiber
nrc
fiber
weight
Prior art date
Application number
NZ744920A
Other versions
NZ744920A (en
Inventor
Martin W Brown
William A Frank
Matthew T Langdon
Wenqi Luan
Original Assignee
Usg Interiors Llc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US15/139,357 external-priority patent/US9909310B2/en
Application filed by Usg Interiors Llc filed Critical Usg Interiors Llc
Publication of NZ744920A publication Critical patent/NZ744920A/en
Publication of NZ744920B2 publication Critical patent/NZ744920B2/en

Links

Classifications

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    • B32B19/00Layered products comprising a layer of natural mineral fibres or particles, e.g. asbestos, mica
    • B32B19/02Layered products comprising a layer of natural mineral fibres or particles, e.g. asbestos, mica the layer of fibres or particles being impregnated or embedded in a plastic substance
    • BPERFORMING OPERATIONS; TRANSPORTING
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    • B32BLAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
    • B32B19/00Layered products comprising a layer of natural mineral fibres or particles, e.g. asbestos, mica
    • B32B19/06Layered products comprising a layer of natural mineral fibres or particles, e.g. asbestos, mica next to a fibrous or filamentary layer
    • BPERFORMING OPERATIONS; TRANSPORTING
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    • BPERFORMING OPERATIONS; TRANSPORTING
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    • B32B2255/00Coating on the layer surface
    • B32B2255/02Coating on the layer surface on fibrous or filamentary layer
    • BPERFORMING OPERATIONS; TRANSPORTING
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    • B32B2260/02Composition of the impregnated, bonded or embedded layer
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    • B32B5/22Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts characterised by the presence of two or more layers which are next to each other and are fibrous, filamentary, formed of particles or foamed
    • B32B5/24Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts characterised by the presence of two or more layers which are next to each other and are fibrous, filamentary, formed of particles or foamed one layer being a fibrous or filamentary layer
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    • B32B5/24Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts characterised by the presence of two or more layers which are next to each other and are fibrous, filamentary, formed of particles or foamed one layer being a fibrous or filamentary layer
    • B32B5/26Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts characterised by the presence of two or more layers which are next to each other and are fibrous, filamentary, formed of particles or foamed one layer being a fibrous or filamentary layer another layer next to it also being fibrous or filamentary
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    • B32B7/04Interconnection of layers
    • B32B7/12Interconnection of layers using interposed adhesives or interposed materials with bonding properties
    • CCHEMISTRY; METALLURGY
    • C03GLASS; MINERAL OR SLAG WOOL
    • C03CCHEMICAL COMPOSITION OF GLASSES, GLAZES OR VITREOUS ENAMELS; SURFACE TREATMENT OF GLASS; SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS, MINERALS OR SLAGS; JOINING GLASS TO GLASS OR OTHER MATERIALS
    • C03C1/00Ingredients generally applicable to manufacture of glasses, glazes, or vitreous enamels
    • C03C1/002Use of waste materials, e.g. slags
    • CCHEMISTRY; METALLURGY
    • C03GLASS; MINERAL OR SLAG WOOL
    • C03CCHEMICAL COMPOSITION OF GLASSES, GLAZES OR VITREOUS ENAMELS; SURFACE TREATMENT OF GLASS; SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS, MINERALS OR SLAGS; JOINING GLASS TO GLASS OR OTHER MATERIALS
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    • CCHEMISTRY; METALLURGY
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    • C03CCHEMICAL COMPOSITION OF GLASSES, GLAZES OR VITREOUS ENAMELS; SURFACE TREATMENT OF GLASS; SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS, MINERALS OR SLAGS; JOINING GLASS TO GLASS OR OTHER MATERIALS
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    • E04C2/10Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by specified materials of wood, fibres, chips, vegetable stems, or the like; of plastics; of foamed products

Abstract

acoustical tile having a wet laid mineral fiber basemat, a non-woven porous fiberglass veil adhered to the basemat and covered with a light reflecting air permeable coating, at least 90% of the weight of the basemat comprising mineral wool and binder, a weight of the binder being less than 1/11 of the weight of the mineral fiber, the basemat having a density of between about 11.4 and about 14.2 lbs/cubic foot, the mineral fiber having an average diameter of between 4.5 and 8.3 microns, the composite of the basemat, veil and coating exhibiting good NRC and CAC performance values. There is a problem achieving good NRC values in an acoustical tile with low cost. A solution is achieved by using mineral fiber made of slag and a component of natural rock exceeding 6% by weight, the fiber having an average diameter of between 4.5 and 8.3 microns. Relatively large fiber diameter has been found to produce an increase in the loft or free volume of the basemat as it is being deposited and formed on the wire screen of the water felting or wet laid process. The increased loft permits development of a basemat with a relatively low density and air flow resistance. The result is a high noise reduction coefficient (NRC) potential even with a low caliper. f the weight of the mineral fiber, the basemat having a density of between about 11.4 and about 14.2 lbs/cubic foot, the mineral fiber having an average diameter of between 4.5 and 8.3 microns, the composite of the basemat, veil and coating exhibiting good NRC and CAC performance values. There is a problem achieving good NRC values in an acoustical tile with low cost. A solution is achieved by using mineral fiber made of slag and a component of natural rock exceeding 6% by weight, the fiber having an average diameter of between 4.5 and 8.3 microns. Relatively large fiber diameter has been found to produce an increase in the loft or free volume of the basemat as it is being deposited and formed on the wire screen of the water felting or wet laid process. The increased loft permits development of a basemat with a relatively low density and air flow resistance. The result is a high noise reduction coefficient (NRC) potential even with a low caliper.

Description

MINERAL FIBER BASED CEILING TILE This application is a continuation-in-part of Application Serial No. 14/995,213, filed January 14, 2016.
BACKGROUND OF THE INVENTION The invention relates to mineral fiber based acoustical ceiling tile.
PRIOR ART The terms mineral fiber and mineral wool are used interchangeably herein. Acoustical tiles, widely used in suspended ceilings, are rated for their sound absorbing and sound transmitting properties. In the industry, sound absorption is measured by noise reduction coefficient, NRC, which should be above 0.55 to qualify as having acceptable acoustical properties. High performance tiles typically have an NRC rating in the order of 0.85 or more. Sound transmission is measured as ceiling attenuation class, CAC, and acceptable values are at least 23.
A common type of ceiling tile has a basemat or core made primarily of mineral wool in a well-known water felted or wet laid process. The mineral wool, binder and lesser amounts of other solids are mixed in a dilute water slurry and deposited on a moving foraminous screen. During the mixing process, the mineral wool fibers tend to ball up and form nodules which largely retain their character when deposited on the mat forming screen. Water is gravity and vacuum separated from the solids on the screen and subsequently the solids are heat and air dried to form a rigid basemat.
It has been the practice to sand one side of the dried water felted basemat to facilitate adhesive attachment of a non-woven fiberglass scrim or veil. The veil is typically painted or coated to improve its light reflectance.
Conventional mineral wool-based wet laid basemats range in density between about 14 to about 16.5 lbs/cubic foot. The lower side of this density range has been limited, at least in part, to a difficulty in establishing a mat that has a sufficiently low density and wet strength to maintain its integrity while moving through the production process, particularly when the basemat is for moderately low caliper product. Mineral fiber typically used in this application has had an average fiber diameter of 3.5 to 4.1 microns.
SUMMARY OF THE INVENTION The invention involves a mineral fiber ceiling tile that achieves relatively high acoustical properties both in noise absorption and noise transmission. The inventive construction is characterized by a low density wet laid basemat made of relatively large average diameter mineral wool fiber as compared to mineral fiber diameters traditionally used in this application. The relatively large fiber diameter has been found to produce an increase in the loft or free volume of the basemat as it is being deposited and formed on the wire screen of the water felting or wet laid process. The increased loft permits development of a basemat with a relatively low density and air flow resistance. The result is a high noise reduction coefficient (NRC) potential even with a low caliper, i.e. a relatively thin finished tile.
Ceiling tile made with the disclosed basemat and without a backcoat exhibits a useful measure of ceiling attenuation class (CAC). Moreover, the disclosed ceiling tile construction can be readily and inexpensively adjusted for increased CAC performance with only a limited loss of NRC by application of a clay-based backcoat.
BRIEF DESCRIPTION OF THE DRAWINGS is a perspective view of an acoustical ceiling tile embodying the invention; and is a fragmentary cross-sectional view of the ceiling tile.
DESCRIPTION OF THE PREFERRED EMBODIMENT illustrates a high performance acoustical ceiling tile 10 constructed in accordance with the invention. The illustrated tile is square, nominally measuring 2 foot by 2 foot on its major faces. Other conventional face sizes such as 2 foot by 4 foot are contemplated. Those skilled in the art will understand that dimensions referenced herein may be changed to those equivalent under industry metric standards.
The tile 10 comprises a basemat or core 11 covered by a non-woven veil or scrim 12 on a side of the basemat towards a room when the tile is installed. The veil 12 may be painted on the room side and the back side of the basemat may be provided with an optional backcoating.
The basemat 11 is formed from a water based dilute slurry primarily composed of mineral fiber and binder. By way of example, the basemat solid constituents (on a weight percent basis) can be approximately: 85 - 95%, preferably about 91.8%, mineral wool, including ordinary shot content; 0 - 3%, preferably about 1.5%, gypsum; - 10%, preferably 6.7% binder(s), for example 3.8% latex, 2.9% starch.
Minor amounts of other materials such as a biocide or a fire retardant may be included. In total, the solids may represent 4.2 to 4.5% of the weight of the slurry with the remaining weight comprising water.
It will be understood from the foregoing, that the basemat is primarily mineral fiber and that the mineral fiber and binder combined preferably exceed 90% of the solids and the binder is preferably between about 1/11 and 1/15 the weight of the mineral wool.
The mat is formed in a conventional wet laid or water felted process well known in the industry. The basemat constituents are thoroughly mixed in a dilute water slurry which is then deposited on a moving foraminous screen in a layer of controlled height. Water is drained from the solids through the screen by gravity and vacuum. The still wet basemat is slightly pressed on the screen with another overlying screen and/or rollers to a desired thickness and subsequently dried in an oven. The binder serves to fix the mineral fibers together in a rigid porous mass.
One side of the basemat is ground flat, as is conventional, to facilitate adhesive bonding of the non-woven fiberglass veil to the basemat. An example of a suitable veil is the product CH52 manufactured Owens Corning Veil Netherlands B.V. and described as follows: Area weight - 125 g/m Air porosity - 1900 l/m /s at 100 Pa A suitable adhesive is used to adhere the veil to the basemat without significantly altering the air flow properties of the veil or the basemat. The adhesive may be a commercially available water based product such as Aquence PL114A marketed by Henkle applied at a rate of 3.6 to 3.9 grams/ft . An outer surface of the veil is typically covered with a porous or non-blocking light reflecting coating or paint to achieve a desired light reflectance (LR) of, for example, 0.87 using a solids coating (primarily TiO ) of, for example, 11.2 grams/ft , or for a LR of 90, a solids coating of about 15 grams/ft . The primary function of the veil is aesthetic so as to provide a relatively uniform flat surface for the light reflective coating. The LR coating and veil do not significantly affect the acoustical properties of the basemat. Additionally, the veil serves to resist sagging of the tile when the tile is installed in a ceiling grid and supported at its perimeter.
In accordance with one aspect of the invention, a low caliper acoustical ceiling tile construction, such as nominal 1/2 inch and 5/8 inch caliper tiles, are produced from a wet felted mineral fiber-based basemat with a density of preferably about 10.0 to about 14.5 lbs/cubic foot and more preferably from about 11.4 to about 14.2 lbs/cubic foot.
To obtain these relatively low densities in a low caliper product, it has been found desirable to modify conventional mineral wool formulations and, seemingly counter-intuitively, to increase the fiber diameter from that conventionally used.
As stated above, a typical conventional mineral wool average diameter typically has been between 3.5 and 4.1 microns. The present invention contemplates an average mineral wool fiber diameter of 4.5 to 8.3 microns with a target of 6 microns and in as produced random lengths.
A typical prior art mineral wool formulation by weight percent is 94% slag and 6% granite rock. New slag/natural rock mineral wool formulations based on weight percent used in the present invention include “a high granite” wool at 83% slag, 17% granite rock and a basalt wool at 80% slag, 20% basalt rock. Potential other formulations include a basalt wool of 60% slag, 40% basalt rock. The foregoing weight percent ratios may be varied by, for example, increasing or decreasing the granite or basalt by 10% and decreasing or increasing the slag by the same percent. A mineral fiber composition including basalt has greater elasticity or resilience than a granite/slag composition and is presently preferred.
The term “slag” as used herein is iron blast furnace slag having major chemical constituents typically as reported by the National Slag Association (U.S.A.), namely: Major Chemical Constituents in Iron Blast Furnace Slag _______________________________________________ Constituent Weight Percent________ Lime (CaO) 32 to 45 Magnesia (MgO) 5 to 15 Silica (SiO ) 32 to 42 Alumina (Al O ) 7 to 16 More recently, iron blast furnace slag is characterized as a combination of minerals: Melilite (akermanite and gehlenite) [Ca MgSi O - Ca Al SiO ] 2 2 7 2 2 7 Merwinite, Calcium-Magnesium-Silicate [Ca MgSi O ] 3 2 8 Calcium-Silicate [CaSiO ] Monticellite [CaMgSiO ] A rough approximation of the proportions is: Melilite ~ 70%, the remaining phases (Merwinite, Calcium- Silicate, and Monticellite) making up the other 30%.
When combined these constituents usually exist as an isomorphic mixture with the following general formula: Ca (MgFeAl)(SiAl) O 2 2 7.
It has been discovered that mineral fiber of an average diameter of 4.5 to 8.3 microns using the basemat formula set out above develops a greater loft of the slurry solids when being deposited on the travelling wire of the basemat production process. This high loft results in a lower final density of the basemat.
A wet formed mineral fiber based basemat density of about 11.4 to 14.2 lbs/cubic foot in a low caliper acoustical ceiling tile of 11/16 inch or less nominal thickness affords both excellent NRC values and useful CAC values. The performance of the tile can be modified with application of a backcoat (typically clay solids and water) to improve CAC value with only a small loss of NRC performance. These relationships in a tile with the described veil and LR paint are set out in the Product Description Table below at columns E, F and G where the mineral fiber is 80% slag and 20% basalt.
Product Description Table Product A B C D E F G Nominal Thickness (inches) 1" 7/8" 7/8" 3/4" 5/8" 5/8" 1/2" Actual Caliper (inches) 1.08 0.90 0.91 0.73 0.65 0.64 0.54 Basemat Density (lbs/ft³) 12.5 13.0 13.5 15.2 11.4 11.4 11.4 Finished Product Density (lbs/ft³) 14.2 14.7 15.2 16.9 12.2 13.0 14.1 NRC (Noise Reduction Coefficient) 0.90 0.85 0.80 0.70 0.85 0.75 0.60 Four Frequency Average (4FA) 0.8816 0.8321 0.7794 0.6885 0.8647 0.8428 0.8298 CAC (Ceiling Attentuation Class) 30 35 35 35 24 24 23 Actual CAC 36 39 38 37 24 25 25 Wool Type Slag/Basalt Slag/Basalt Slag/Granite Slag/Granite Slag/Basalt Slag/Basalt Slag/Basalt Light Reflectance (LR) 0.90 0.90 0.90 0.90 0.87 0.87 0.87 Face Coat (dry grams/ft²) 15 15 15 15 11.2 11.2 11.2 Back Coat (dry grams/ft²) 18.3 27.0 21.2 21.2 0 8.64 0 An average diameter of the mineral fiber in the order of 6 microns, i.e. between 4.5 and 8.3 microns serves to provide a solution in the search for a low caliper high performance acoustical tile with a mineral fiber basemat for two reasons.
First, as stated above, the larger than normal fiber diameter has been found to increase the loft of the fiber mat as it is being formed on the travelling wire of the wet felting process. Secondly, the larger diameter affords an increased tensile strength of the individual mineral fibers which serves to hold the basemat structurally together as it is processed along the production line where it is transferred between conveyor rollers and/or belts and is sanded and edge trimmed.
It has been found that a high loft in the basemat is facilitated by use of an appropriate chemical mist coating (sometimes referred to as a de-dusting liquid) to settle the mineral fibers out of the air stream as they are being manufactured in a conventional spinning process. A polyethylene glycol (PEG) water solution (13.5% PEG, 86.5 water) sprayed as a mist on the mineral fiber at a rate of, for example, 0.5% to 1.0% of the weight of the mineral fiber serves to improve lofting performance of the mineral fibers in the wet felting process. Instead of a water and PEG de- dusting mist, a suitable mineral oil can be used for the de- dusting function. The oil should be low in VOC emissions and have high flash and fire points where a high temperature dryer is used to dry the basemat. An example of such an oil has the following characteristics: ISO grade 100, AGMA No. 3, SAE Gear Oil No. 80, SAE No. 30, Viscosity cSc @ 40°C/100°C - 95/11, Viscosity index 101, Flash Point 500°F/260°C Fire Point 555°F/291°C. A rate of 0.5 to 1.0% by weight of mineral oil to the weight of mineral fiber can be used. It is believed that a residual of the de-dusting liquid exists in the final basemat products described herein.
The disclosed basemat in a low caliper tile construction surprisingly exhibits unique and desirable acoustical properties of both NRC and CAC. This performance is not normally available, for example, in a fiberglass based basemat of the same caliper compared to the inventive basemat.
In accordance with another aspect of the invention, the above disclosed slag/basalt mineral fiber and basemat formulation can be used to produce high performance acoustical panels with both high NRC (Noise Reduction Coefficient) and CAC (Ceiling Attenuation Class ) values. This can be accomplished by increasing the thickness or caliper of the basemat and by back coating the basemat with a material that is acoustically reflective. The adhesively attached, painted veil, as described, can be maintained.
Columns A and B of the Product Description Table indicate the characteristics of the described slag/basalt basemat composition (80% slag, 20% basalt) in larger caliper sizes.
Conventional prior art slag/granite products are characterized in columns C and D. A comparison of NRC values in columns A and B with values in columns C and D shows a significant increase of NRC in the slag/basalt formulations of the invention over prior art formulations. The product in column B is intentionally produced with a relatively higher basemat density than the other slag/basalt products (columns A, E, F and G) to adjust for a desired higher CAC.
The acoustically reflective back coat levels registered in the Product Description Table can be applied in two successive coats. The back coat(s) prior to drying comprises kaolin clay and water with a minor amount of latex, about 5% by weight, in a second coat. The product of column F is covered with a single back coat coating for appearance. The face coat is an acoustical non-blocking paint that is primarily titanium dioxide and can be applied in two coats.
The slag/basalt mineral fiber basemat formulation described herein exhibits improved loft in the wet laying or felting process so that it is possible to lay down an initial target pre-compressed thickness with less fiber and other slurry materials and, therefore, less density. The slag/basalt fiber basemat meeting the minimum target thickness with less material is pressed into a final, pre-grinding, design thickness with the same reduction in material content.
The use of slag/basalt wool can yield improvement in production line speeds (mainly due to dryer capacity) due to improved drainage and lower density. With slag/basalt wool, for a given volume of basemat there is less mass to dry and better air flow through the basemat, and thus less dryer load.
It should be evident that this disclosure is by way of example and that various changes may be made by adding, modifying or eliminating details without departing from the fair scope of the teaching contained in this disclosure. The invention is therefore not limited to particular details of this disclosure except to the extent that the following claims are necessarily so limited.
NZ744920A 2016-01-14 2016-04-28 Mineral fiber based ceiling tile NZ744920B2 (en)

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
US201614995213A 2016-01-14 2016-01-14
US14/995,213 2016-01-14
US15/139,357 US9909310B2 (en) 2016-01-14 2016-04-27 Mineral fiber based ceiling tile
US15/139,357 2016-04-27
PCT/US2016/029653 WO2017123270A1 (en) 2016-01-14 2016-04-28 Mineral fiber based ceiling tile

Publications (2)

Publication Number Publication Date
NZ744920A NZ744920A (en) 2021-03-26
NZ744920B2 true NZ744920B2 (en) 2021-06-29

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