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Room temperature crosslinked foam

a cross-linked foam and room temperature technology, applied in the field of safe foams, can solve the problems of difficulty in breathing, rise in the level of moisture and air pollutants, and conventional polyurethane spray foam, and achieve the effects of improving cell structure, safe disposal, and faster drying/curing of foam

Inactive Publication Date: 2008-07-03
OWENS CORNING INTELLECTUAL CAPITAL LLC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0029]In any of the aforementioned applications, the foam may be layered with other materials to form a composite to provide enhanced acoustical, thermal or cushioning properties. For example, the foam can be used with wood, flexible and / or rigid foam, insulation (acoustical / thermal), metal, fabrics, plastic, and combinations thereof.
[0039]It is also an advantage of the present invention that the components of the one-part foam compositions in which the crosslinking agent and base or the acid and base are encapsulated may be mixed and stored in one container without significant reaction until the composition is used.

Problems solved by technology

There are several problems associated with conventional polyurethane spray foams.
As a result, the levels of moisture and air pollutants rise in these tightly sealed buildings that no longer permit moisture penetration into the building.
Another problem associated with conventional polyurethane spray foams is that the first component (the “A” side) contains high levels of methylene-diphenyl-di-isocyanate (MDI) monomers.
Even a brief exposure to isocyanate monomers may cause difficulty in breathing, skin irritation, blistering and / or irritation to the nose, throat, and lungs.
Extended exposure of these monomers can lead to a sensitization of the airways, which may result in an asthmatic-like reaction and possibly death.
An additional problem with such conventional polyurethane spray foams is that residual polymeric methylene-diphenyl-di-isocyanate (PMDI) that is not used is considered to be a hazardous waste.
Such precautions are both costly and time consuming.

Method used

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Examples

Experimental program
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Effect test

examples

[0101]Table 1 sets forth a list of proposed components that may be used to make at least one exemplary embodiment of the inventive foam.

TABLE 1Proposed ComponentsTrade NameDescriptionManufacturerFunctionalizedLatexOmnapelCarboxylated Acrylic LatexOmnovaSolutions, Inc.NovaCrylCarboxylated Acrylic LatexOmnovaSolutions, Inc.GenFloCarboxylated SBR LatexOmnovaSolutions, Inc.Non-FunctionalizedLatexAcryGen DV300Acrylic LatexOmnovaSolutions, Inc.Vycar 660 × 144Acrylic LatexNoveonF-6694SBR LatexOmnovaSolutions, Inc.CrosslinkingAgentsXAMA 7Multifunctional AziridineBayer ChemicalLindride 56MethylhexahydrophthalicLindau ChemicalAnhydrideHardner CDCarbodiimideRotta Corp.YDH 184Cycloaliphatic DiepoxideThai EpoxyBlowing AgentsSodium Bicarbonate / Citric AcidAldrichSodium Carbonate / Citric AcidAldrichCalcium Carbonate / SodiumAldrichBicarbonate / Citric AcidSurfactantG-5M TritonNon-ionic SurfactantDow ChemicalABEXNon-ionic SurfactantOmnovaSolutions, Inc.Stanfax 234Sodium Lauryl SulfateParaChemThickening A...

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Abstract

Foams for filling cavities and crevasses and for forming foamed products are provided. The latex foam may include an A-side containing a functionalized latex and a B-side that contains a crosslinking agent and optionally a non-functionalized latex. The A- and / or B-side contain a blowing agent package or components forming the blowing agent package. The blowing agent package may be the combination of two or more chemicals that when mixed together form a gas or a chemical compound that, when activated by heat or light, forms a gas. In an alternate embodiment, the latex foam includes a functionalized latex, an acid, and an encapsulated crosslinking agent and base. Alternatively, the spray latex foam may include a functionalized latex, a crosslinking agent, and an encapsulated dry acid and dry base. The encapsulating agent may be a protective, non-reactive shell that can be broken or melted at the time of application.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS[0001]This application is a continuation-in-part of parent U.S. patent application Ser. No. 11 / 647,747, entitled “Spray-In Latex Foam For Sealing And Insulating” filed on Dec. 29, 2006, the entire content of which is expressly incorporated herein by reference in its entirety.TECHNICAL FIELD AND INDUSTRIAL APPLICABILITY OF THE INVENTION[0002]The present invention relates generally to safe foams and, more particularly, to foams formed from latex that are used to fill cavities, cracks, and crevasses to enhance the sealing and insulating properties of buildings, cars, and appliances and to form backing for carpets, cushions, mattresses, pillows, and toys. Methods of making such foams are also provided.BACKGROUND OF THE INVENTION[0003]Spray foams have found widespread utility in the fields of insulation and structural reinforcement. For example, spray foams are commonly used to insulate or impart structural strength to items such as automobiles, hot...

Claims

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Application Information

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IPC IPC(8): C08J9/30
CPCC08J9/08C08J2333/00C08L51/003C08L51/04C08L53/02C08J2351/08C08J9/228C08J2201/022C08J2201/026C08J2203/12E04C5/07E04B1/6801E04B1/74E04B2001/742C08J9/127C08L2666/04C08L2666/14C08L2666/02
Inventor KORWIN-EDSON, MICHELLE L.O'LEARY, ROBERT J.QUINN, ROBERT E.OLANG, FATEMEH
Owner OWENS CORNING INTELLECTUAL CAPITAL LLC
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