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US2500665A - High-temperature insulation and method of manufacture - Google Patents

High-temperature insulation and method of manufacture
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Publication number
US2500665A
US2500665AUS528801AUS52880144AUS2500665AUS 2500665 AUS2500665 AUS 2500665AUS 528801 AUS528801 AUS 528801AUS 52880144 AUS52880144 AUS 52880144AUS 2500665 AUS2500665 AUS 2500665A
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fibers
bentonite
binder
resin
mass
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US528801A
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Harry C Courtright
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Owens Corning
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Owens Corning Fiberglas Corp
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March 14, 1950 H. C. COURTRIGHT HIGH TEMPERATURE INSULATION AND METHOD OF MANUFACTURE Filed March 30, 1944 INVENTOR. H ry G. Courfrlyhf ATTOF/VEYJ Patented Mar. 14, 1950 HIGH-TEMPERATURE INSULATION AND METHOD OF MANUFACTURE Harry C. Courtright, Newark, Ohio, assignor to Owens-Corning Fiberglas Corporation, a corporation of Delaware Application March 30, 1944, Serial No. 528,801
2 Claims.
This invention relates to insulating materials capable of withstanding high temperature, and, to an improved method of producing insulating materials of this type.
One of the principal objects of this invention is to provide an unusually strong, light-weight, inexpensive, self-sustaining insulating block having fixed dimensions and high insulating properties in the presence of high temperatures.
High temperature insulation has previously been made of such materials as asbestos, magnesia and asbestos, diatomaceous earth, rock wool, and the like bonded into blocks or boards with suitable binders. Most of these materials must be of relatively high density, say from about 15 to 25 pounds per cubic foot, to provide the required insulating characteristics and they are also of such a nature that insulation in the form of boards and blocks made therefrom have relatively little strength. The strength is oftentimes so low that even ordinary handling causes breakage of the insulation especially at the edges or corners. This results in great waste because the broken boards or blocks must usually be discarded.
Much higher strengths are obtained by making such insulating boards and blocks from long fine mineral fibers such as fibrous glass. Fibrous glass as presently manufactured is in the form of a loose fluffy mass having original densities of approximately one to two pounds per cubic foot. The individual fibers are of great length and high strength so that products made from these fibers have increased strength. Previously, however, the process of manufacture of the insulation from fibrous material was beset with serious difficulties. In the manufacture of the insulation it was required to impregnate the loose fiuffy fibrous material with a high temperature binder such, for example, as bentonite and the impregnated material must then be compressed or compacted to increase the density to from six to twelve pounds per cubic foot. While being held to this compacted form, it must be heated to elevated temperatures for long periods of time to dry or set the binder. Since large amounts of water are required as a vehicle for most binding materials, the drying time may be in the order of days.
This process for making high temperature insulation is open to the objection that means such as manually applied compacting frames or the like must be used to hold the impregnated fibrous material compressed to the required relatively high density during the prolonged heat treating period. This necessitates a very large amount of equipment to produce even a small amount of insulation, and the process involves a great deal of hand labor which makes the product prohibitively costly.
It is the object of the present invention to provide a simple process for the manufacture of high temperature insulation at low cost.
It is another object to manufacture high temperature insulation of high density from fibrous glass and similar fibrous mineral material that is originally of very low density without the need for large amounts of equipment.
The present invention overcomes ficulties previously experienced by binding the fibers into a compact insulating board having the required dimensions and density by means of a binder that has high strength to hold the fibers compacted and. that may be set in a very short period so that compacting pressures need be maintained on the fibrous mass for only a short time. Thi binder is also one that is unaffected by the temperature required to dry the usual high temperature binders such as bentonite,
but that may be removed readily from the fibrous material after its purpose has been served.
This board is thenconverted into a high temperature insulation by impregnating the bonded board with a high temperature binder such, for example, as bentonite in the form of a slurry, and thereafter heat treating the board to dry the latter binder. After this the original binder is removed without affecting the high temperature binder. Thus heat treatment of the binder may be accomplished without the difficulty previously referred to, namely, providing equipment for holding the fibrous mass compacted to the proper density during the heat treating period.
Other" advantages of the invention will be anparent as this description proceeds, especially when considered in'connection with the accompanying drawing, illustrating diagrammatically one type of apparatus capable of being used to carry out the method. of manufacture forming the subject matter of this invention.
Although the present invention is applicable in practically all cases where the insulating blocks or boards are formed of mineral wool. such as slag wool, rock wool or the like, it is particularly valuable in the production of insulating bats formed of fibrous glassr' The fibrous glass or other mineral wool may be produced by any suitable process, one such process being illustrated diagrammatically in the drawing. Here molten material, such as molten the difglass, is flowed from a feeder It in a plurality of small streams which are engaged by the blast from a blower l2 to be attenuated into fibers. The fibers are conveyed by the blast through a chamber I3 and onto a conveyor H where they build up into a mat l6. As the fibers are collected a suitable binding material is sprayed onto the fibers by means of a spray gun II.
This binder is preferably one that can be applied in a liquid or sub-divided form and that can be converted by treatment for a relatively short time into a rigid material capable of securing the fibers together in a compacted relation. For this purpose I have found that an incompletely reacted thermosetting resin, preferably an aldehyde condensation product such as phenol or urea formaldehyde, or furfuryl aldehyde, are particularly suitable. The binder may also be a carbohydrate such as sugar syrup, corn syrup, or the like, which may be converted by heating into a rigid carbonaceous binding material. These materials, in addition to being convertible to rigid binders by means of heating for a short time, are also capable of bein removed from the fibrous material by heating for a short period to a temperature somewhat above the curing or setting temperature. For example, most of the thermosetting resins may be thermally set at temperatures ranging from about 200 to 350 F. and may be burned out of the fibrous material at temperatures of about 450 to 600 F. The carbohydrates such as sugar and corn syrup are likewise first converted to a rigid binding material and subsequently removed by heating respectively to temperatures from about 250 to 300 F. and from about 500 to 600 F.
The heating of the binding material distributed throughout the fibrous mat It may be accomplished in any suitable manner, for instance, by passing the mat through an oven It. An endless chain 20 is located within the oven and is arranged to compress the mat on the conveyor H to the desired density and to hold the mat compacted until the binding material has been set or cured. With the binders mentioned the mat need remain in the oven for only five to twenty minutes depending upon the thickness of the mat and the temperature of the oven. When the heat-treated mat leaves the oven [8 the binder is completely set or cured and the mat is in the form of a semi-rigid orrigid board 22 of permanent dimensions of from 6 to 12 pounds per cubic foot density.
In accordance with this invention the board bonded to desired density in this or other suitable manner is converted into a high temperature insulating material by distributing a high temperature-resisting binder such as an inorganic material throughout the bonded board while the latter is held in a highly compacted condition by the previously applied and set organic binder. This operation is illustrated in the drawing as being performed by means of a spray head 23 located above and extending-across the continuously advancingboard 22. A plurality of outlet openings in the spray head direct a solution or suspension of selected binding material onto the board.
Preferably the solution or suspension is applied at such a rate that a puddle forms on the top surface of the board to be drawn into the board by a vacuum chamber 24 beneath the board. Any excess binder solution drawn completely through the board is collected in the chamber from which it may be returned by a After the inorganic material is thoroughly dis-' tributed throughout the mat, the mat is cut into desired lengths to form insulating boards, as by a cutter 21. The boards are then dried in any suitable manner to remove water therefrom. A
unique feature of the present invention is that the inorganic binder may even be air-dried since the only requirement isfor storage space, no means being necessary to hold the fibrous material in compacted relation. Uusually, however, speed and efficiency are better served if the binder-impregnated boards are heated to slightly elevated temperature, as about 250 to 300 F., for several hours.
After being dried the insulating boards are placed in an oven or heated in other convenient manner to a temperature exceeding the ignition temperature of the original organic binding agent to burn this binder out of the insulation and convert the board to a high temperature insulation. The drying of the second binder and ignition of the original binder may be performed in a single heat treating cycle by heating the board for the required period at moderate temperatures to dry the board and then increasing the temperature for a short period to burn out the original binder. Since the bentonite is converted into a binder at a temperature below that at which the organic binder is burned out, the fibrous material is held in its compacted state throughout the entire process. .Temperatures in. the range of 400 toi600" F. are usually suflicient to burn out the original binder but this temperature will be higher or lower depending upon the particular organic binder employed.
In installations where the temporary presence of products of combustion of the original binder are not objectionable, it is entirely possible to use the heat generated or produced by the equipment on which the insulation is installed to burn out the original binder. In either case a high temperature insulation board is produced wherein the fibers are effectively bonded together to form a self-supporting hat by an'inorganic, high temperature bonding agent that replaced the original bonding agent without disturbing or permitting disarrangement of the fibers in the mat, and form and dimensions of the bat or board of insulation are not altered during the process of converting the board from what is in effect a low temperature insulation to a high temperature insulation.
This feature of the invention permits the man ufacture of low temperature insulation with the ability to readily convert the production equipment to the manufacture of high temperature insulation merely by adding the steps of applying a second binder, drying the second binder and, if desired, then removing the first binder. Thus one machine or line of equipment may be used to manufacture two different products by making slight changes in the equipment, which increases greatly the flexibility of the apparatus.
Although particular materials have been mentioned as the original and the second binder, others may be chosen within the limits that the original binder should be hardened by treatment for a short time and should be removable by a second short time treatment, and the second binder should be hardened by a heat-treatment at temperatures intermediate the hardening and ignition temperatures of the original binder. The second binder is preferably a colloidal clay such as bentonite and the original binder is preferably an aldehyde condensation product.
It may be desirable in some instances to waterproof the bentonite to some degree, and this may be accomplished readily by mixing a small quantity of alkali soap in the bentonite slurry and by increasing the temperature of the last part of the heat treating cycle of the process to approxi: mately 800 to 1000 F. for a short period of time. At temperatures in this range the alkali from the soap apparently combines with the bentonite to make it water repellant and the other constituents of'the soap burn out.
I claim: a
1. As a product ofmanufacture, a porous mass of resilient mineral wool bonded into an integral form-retaining body with a substantially completely reacted aldehyde condensation product distributed throughout the mass and surrounding the fibers at their junctures to adhere the fibers together throughout the body, and bentonite deposited from an aqueous slurry and dried and superposed on and coating the aldehyde condensation product as a discrete layer and surrounding the fibers at their iunctures to bond the fibers together, said aldehyde condensation product and said bentonite each being present in sumcientamount to act independently of the other to hold the fibers together in fixed relation in a'formretaining body but both being in insufiicient 'amounttofillalltheporesofsaidbody.
2, The method of making high temperature said compacted relation, after the completion of said heating operation impregnating the fibrous material with an' aqueous suspension of bentonite and distributing the bentonite as a discrete layer over the said resin on the fibers and around the Junctures of the fibers in said .mass to bind the fibers together, the bentonite being present in suflioient amount to-hold the fibers together independently of the said resin,
Number Name Date 2,076,078 French Apr. 0, 193'! 2,184,316 i Plummer Dec. 26, 1939 2,225,009 Hyde Dec. 17, 1940 36 2,249,275 Hanley July 15, 1941 -r--- o-v--- we 2 i for the fibers.
and subjecting the bentonite on the fibers to temperatures at which said resin burns out to dry the bentonite and thereby convert it to a binder HARRY c. coon-imam.
REFERENCES CITED The following references are of record in th file of patent:
UNITED STATES PATENTS

Claims (1)

  1. 2. THE METHOD OF MAKING HIGH TEMPERATURE INSULATING BOARD IN WHICH A FLUFFY RESILIENT MASS OF LOOSE GLASS FIBERS IS COMPACTED UNDER PRESSURE TO HIGHER THAN ITS ORIGINAL DENSITY AND BONDED IN COMPACTED RELATION, WHICH COMPRISES APPLYING TO THE FIBERS OF THE MASS ABOUT THEIR JUNCTURES A THERMOSETTING PHENOL FORMALDEHYDE RESIN TO BIND THE FIBERS TOGETHER, COMPRESSING THE FIBROUS MASS TO COMPACTED RELATION WHILE HEATING THE SAID RESIN ON THE FIBERS FOR A TIME SUFFICIENT TO CURE THE RESIN AND THEREBY BOND THE FIBROUS MASS IN SAID COMPACTED RELATION, AFTER THE COMPLETION OF SAID HEATING OPERATION IMPREGNATING THE FIBROUS MATERIAL WITH AN AQUEOUS SUSPENSION OF BENTONITE AND DISTRIBUTING THE BENTONITE AS A DISCRETE LAYER OVER THE SAID RESIN ON THE FIBERS AND AROUND THE JUNCTURES OF THE FIBERS IN SAID MASS TO BIND THE FIBERS TOGETHER, THE BENTONITE BEING PRESENT IN SUFFICIENT AMOUNT TO HOLD THE FIBERS TOGETHER INDEPENDENTLY OF THE SAID RESIN, AND SUBJECTING THE BENTONITE ON THE FIBERS TO TEMPERATURES AT WHICH SAID RESIN BURNS OUT TO DRY THE BENTONITE AND THEREBY CONVERT IT TO A BINDER FOR THE FIBERS.
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Cited By (38)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2600843A (en)*1952-01-241952-06-17Vibradamp CorpProcess for manufacturing compressible glass fiber shock absorption material and products
US2612462A (en)*1947-11-201952-09-30Johns ManvilleLaminated insulating block and method of making the same
US2633433A (en)*1946-05-021953-03-31Baldwin Hill CompanyInsulating material
US2692219A (en)*1951-07-051954-10-19Owens Corning Fiberglass CorpStructural panel
US2703486A (en)*1948-08-171955-03-08Pittsburgh Corning CorpGlass building structure
US2717841A (en)*1951-01-091955-09-13Owens Corning Fiberglass CorpBonded glass fiber product and method of making same
US2788294A (en)*1951-10-201957-04-09Dick Co AbMethod and apparatus for transferring thin fibrous structures
US2843916A (en)*1954-05-171958-07-22Thomas R SimkinsMethod of fluffing glass fibers
US2860687A (en)*1955-06-061958-11-18Ferro CorpApparatus for producing bonded fibrous glass mats
US2886466A (en)*1956-07-311959-05-12Du PontComposition, process, and product
US2904843A (en)*1959-09-22Method of shaping a starch-bound
US3061107A (en)*1959-03-161962-10-30Lucian W TaylorFilter cartridge and method of making the same
US3118807A (en)*1960-02-251964-01-21Johns ManvilleBonded fibrous insulation
US3153107A (en)*1960-12-121964-10-13Lockport Mills Res And Dev CorProcess of removing oil from textile fibers while binding them together by resins
US3852108A (en)*1972-09-041974-12-03Ahlstroem OyMethod and device for recovering glass fiber from glass felt rejects
DE3937472A1 (en)*1988-12-101990-06-13Willich Daemmstoffe & Zubehoer MINERAL WOOL INSULATION AND GEL GEL BINDING AGENT AND PRODUCTION PROCESS
US8900495B2 (en)2009-08-072014-12-02Knauf InsulationMolasses binder
US8901208B2 (en)2007-01-252014-12-02Knauf Insulation SprlComposite wood board
US8940089B2 (en)2007-08-032015-01-27Knauf Insulation SprlBinders
US9040652B2 (en)2005-07-262015-05-26Knauf Insulation, LlcBinders and materials made therewith
US9309436B2 (en)2007-04-132016-04-12Knauf Insulation, Inc.Composite maillard-resole binders
US9492943B2 (en)2012-08-172016-11-15Knauf Insulation SprlWood board and process for its production
US9493603B2 (en)2010-05-072016-11-15Knauf Insulation SprlCarbohydrate binders and materials made therewith
US9505883B2 (en)2010-05-072016-11-29Knauf Insulation SprlCarbohydrate polyamine binders and materials made therewith
US9828287B2 (en)2007-01-252017-11-28Knauf Insulation, Inc.Binders and materials made therewith
US10287462B2 (en)2012-04-052019-05-14Knauf Insulation, Inc.Binders and associated products
US10508172B2 (en)2012-12-052019-12-17Knauf Insulation, Inc.Binder
US10767050B2 (en)2011-05-072020-09-08Knauf Insulation, Inc.Liquid high solids binder composition
US10864653B2 (en)2015-10-092020-12-15Knauf Insulation SprlWood particle boards
US10968629B2 (en)2007-01-252021-04-06Knauf Insulation, Inc.Mineral fibre board
US11060276B2 (en)2016-06-092021-07-13Knauf Insulation SprlBinders
US11248108B2 (en)2017-01-312022-02-15Knauf Insulation SprlBinder compositions and uses thereof
US11332577B2 (en)2014-05-202022-05-17Knauf Insulation SprlBinders
US11401204B2 (en)2014-02-072022-08-02Knauf Insulation, Inc.Uncured articles with improved shelf-life
US11846097B2 (en)2010-06-072023-12-19Knauf Insulation, Inc.Fiber products having temperature control additives
US11939460B2 (en)2018-03-272024-03-26Knauf Insulation, Inc.Binder compositions and uses thereof
US11945979B2 (en)2018-03-272024-04-02Knauf Insulation, Inc.Composite products
US12351738B2 (en)2014-07-172025-07-08Knauf Insulation, Inc.Binder compositions and uses thereof

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US2076078A (en)*1935-04-241937-04-06Staley Mfg Co A EMethod of forming insulating material
US2184316A (en)*1937-11-041939-12-26Owens Corning Fiberglass CorpMineral fiber binder
US2225009A (en)*1937-08-251940-12-17Owens Corning Fiberglass CorpMethod of bonding fiber glass with carbon
US2249275A (en)*1937-03-311941-07-15Respro IncInsulating material and method of manufacture
US2306347A (en)*1939-07-281942-12-22Owens Corning Fiberglass CorpMethod and apparatus for making fibrous glass products

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US2076078A (en)*1935-04-241937-04-06Staley Mfg Co A EMethod of forming insulating material
US2249275A (en)*1937-03-311941-07-15Respro IncInsulating material and method of manufacture
US2225009A (en)*1937-08-251940-12-17Owens Corning Fiberglass CorpMethod of bonding fiber glass with carbon
US2184316A (en)*1937-11-041939-12-26Owens Corning Fiberglass CorpMineral fiber binder
US2306347A (en)*1939-07-281942-12-22Owens Corning Fiberglass CorpMethod and apparatus for making fibrous glass products

Cited By (71)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2904843A (en)*1959-09-22Method of shaping a starch-bound
US2633433A (en)*1946-05-021953-03-31Baldwin Hill CompanyInsulating material
US2612462A (en)*1947-11-201952-09-30Johns ManvilleLaminated insulating block and method of making the same
US2703486A (en)*1948-08-171955-03-08Pittsburgh Corning CorpGlass building structure
US2717841A (en)*1951-01-091955-09-13Owens Corning Fiberglass CorpBonded glass fiber product and method of making same
US2692219A (en)*1951-07-051954-10-19Owens Corning Fiberglass CorpStructural panel
US2788294A (en)*1951-10-201957-04-09Dick Co AbMethod and apparatus for transferring thin fibrous structures
US2600843A (en)*1952-01-241952-06-17Vibradamp CorpProcess for manufacturing compressible glass fiber shock absorption material and products
US2843916A (en)*1954-05-171958-07-22Thomas R SimkinsMethod of fluffing glass fibers
US2860687A (en)*1955-06-061958-11-18Ferro CorpApparatus for producing bonded fibrous glass mats
US2886466A (en)*1956-07-311959-05-12Du PontComposition, process, and product
US3061107A (en)*1959-03-161962-10-30Lucian W TaylorFilter cartridge and method of making the same
US3118807A (en)*1960-02-251964-01-21Johns ManvilleBonded fibrous insulation
US3153107A (en)*1960-12-121964-10-13Lockport Mills Res And Dev CorProcess of removing oil from textile fibers while binding them together by resins
US3852108A (en)*1972-09-041974-12-03Ahlstroem OyMethod and device for recovering glass fiber from glass felt rejects
DE3937472A1 (en)*1988-12-101990-06-13Willich Daemmstoffe & Zubehoer MINERAL WOOL INSULATION AND GEL GEL BINDING AGENT AND PRODUCTION PROCESS
EP0373453A1 (en)*1988-12-101990-06-20F. WILLICH DÄMMSTOFFE + ZUBEHÖR GMBH & CO.Insulating material from mineral wool and diatomaceous earth and process for producing it
US9926464B2 (en)2005-07-262018-03-27Knauf Insulation, Inc.Binders and materials made therewith
US9260627B2 (en)2005-07-262016-02-16Knauf Insulation, Inc.Binders and materials made therewith
US9745489B2 (en)2005-07-262017-08-29Knauf Insulation, Inc.Binders and materials made therewith
US9464207B2 (en)2005-07-262016-10-11Knauf Insulation, Inc.Binders and materials made therewith
US9040652B2 (en)2005-07-262015-05-26Knauf Insulation, LlcBinders and materials made therewith
US9434854B2 (en)2005-07-262016-09-06Knauf Insulation, Inc.Binders and materials made therewith
US8901208B2 (en)2007-01-252014-12-02Knauf Insulation SprlComposite wood board
US11459754B2 (en)2007-01-252022-10-04Knauf Insulation, Inc.Mineral fibre board
US11905206B2 (en)2007-01-252024-02-20Knauf Insulation, Inc.Binders and materials made therewith
US11453780B2 (en)2007-01-252022-09-27Knauf Insulation, Inc.Composite wood board
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US11401209B2 (en)2007-01-252022-08-02Knauf Insulation, Inc.Binders and materials made therewith
US10968629B2 (en)2007-01-252021-04-06Knauf Insulation, Inc.Mineral fibre board
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US9828287B2 (en)2007-01-252017-11-28Knauf Insulation, Inc.Binders and materials made therewith
US9309436B2 (en)2007-04-132016-04-12Knauf Insulation, Inc.Composite maillard-resole binders
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US9039827B2 (en)2007-08-032015-05-26Knauf Insulation, LlcBinders
US11946582B2 (en)2007-08-032024-04-02Knauf Insulation, Inc.Binders
US9469747B2 (en)2007-08-032016-10-18Knauf Insulation SprlMineral wool insulation
US8900495B2 (en)2009-08-072014-12-02Knauf InsulationMolasses binder
US10053558B2 (en)2009-08-072018-08-21Knauf Insulation, Inc.Molasses binder
US9416248B2 (en)2009-08-072016-08-16Knauf Insulation, Inc.Molasses binder
US11078332B2 (en)2010-05-072021-08-03Knauf Insulation, Inc.Carbohydrate polyamine binders and materials made therewith
US12122878B2 (en)2010-05-072024-10-22Knauf Insulation, Inc.Carbohydrate polyamine binders and materials made therewith
US12054514B2 (en)2010-05-072024-08-06Knauf Insulation, Inc.Carbohydrate binders and materials made therewith
US10913760B2 (en)2010-05-072021-02-09Knauf Insulation, Inc.Carbohydrate binders and materials made therewith
US10738160B2 (en)2010-05-072020-08-11Knauf Insulation SprlCarbohydrate polyamine binders and materials made therewith
US9505883B2 (en)2010-05-072016-11-29Knauf Insulation SprlCarbohydrate polyamine binders and materials made therewith
US9493603B2 (en)2010-05-072016-11-15Knauf Insulation SprlCarbohydrate binders and materials made therewith
US11814481B2 (en)2010-05-072023-11-14Knauf Insulation, Inc.Carbohydrate polyamine binders and materials made therewith
US11846097B2 (en)2010-06-072023-12-19Knauf Insulation, Inc.Fiber products having temperature control additives
US10767050B2 (en)2011-05-072020-09-08Knauf Insulation, Inc.Liquid high solids binder composition
US11725124B2 (en)2012-04-052023-08-15Knauf Insulation, Inc.Binders and associated products
US10287462B2 (en)2012-04-052019-05-14Knauf Insulation, Inc.Binders and associated products
US12104089B2 (en)2012-04-052024-10-01Knauf Insulation, Inc.Binders and associated products
US11453807B2 (en)2012-04-052022-09-27Knauf Insulation, Inc.Binders and associated products
US9492943B2 (en)2012-08-172016-11-15Knauf Insulation SprlWood board and process for its production
US10183416B2 (en)2012-08-172019-01-22Knauf Insulation, Inc.Wood board and process for its production
US10508172B2 (en)2012-12-052019-12-17Knauf Insulation, Inc.Binder
US11384203B2 (en)2012-12-052022-07-12Knauf Insulation, Inc.Binder
US12338163B2 (en)2014-02-072025-06-24Knauf Insulation, Inc.Uncured articles with improved shelf-life
US11401204B2 (en)2014-02-072022-08-02Knauf Insulation, Inc.Uncured articles with improved shelf-life
US11332577B2 (en)2014-05-202022-05-17Knauf Insulation SprlBinders
US12351738B2 (en)2014-07-172025-07-08Knauf Insulation, Inc.Binder compositions and uses thereof
US11230031B2 (en)2015-10-092022-01-25Knauf Insulation SprlWood particle boards
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US11060276B2 (en)2016-06-092021-07-13Knauf Insulation SprlBinders
US11248108B2 (en)2017-01-312022-02-15Knauf Insulation SprlBinder compositions and uses thereof
US11945979B2 (en)2018-03-272024-04-02Knauf Insulation, Inc.Composite products
US12325790B2 (en)2018-03-272025-06-10Knauf Insulation, Inc.Binder compositions and uses thereof
US11939460B2 (en)2018-03-272024-03-26Knauf Insulation, Inc.Binder compositions and uses thereof

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