Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – Cellular products or processes of preparing a cellular...
Reexamination Certificate
2001-12-18
2004-06-22
Cooney, Jr., John M. (Department: 1711)
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
Cellular products or processes of preparing a cellular...
C521S170000, C521S172000, C521S173000, C521S174000
Reexamination Certificate
active
06753357
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to rigid polyurethane foams, and more particularly to the preparation of such foams with methyl formate as the sole or primary blowing agent.
2. Description of the Prior Art
Rigid polyurethane foams are useful in a wide range of applications, including applications for insulation in refrigeration systems, structural applications and flotation applications, as in boats, buoys, docks and other flotation devices. In such applications, not only the density and closed cell content of the foam, but also the ability of the foam to retain its dimensional stability in adverse conditions are critical. In fact, in flotation applications, the United States government has specified rigorous test methods and standards for such characteristics of foams in relevant applications associated with the United States Coast Guard. See, for example, 33 CFR §183.114 and the test methods set forth in ASTM D2126.
Conventionally, processes employing two components or three components have been used to prepare rigid foams. One component, generally referred to as component A (or A-side), comprises isocyanate. Frequently, component A also comprises a surfactant and a blowing agent. The second component, known generally as component B (or B-side), comprises any of various polyols, particularly polyether and/or polyester polyols. Component B may also comprise a surfactant, a catalyst package and a blowing agent, any or all of which may reside solely in component B. Alternatively, any or all of such ingredients may be introduced to the reaction mixture in a third stream or in both component B and a third stream. If an excess of isocyanate is employed, modified polyisocyanurate foams may be formed. The foams produced by these standard methods commonly have a density in the range of from about 1 lb./ft.
3
to about 4 lb./ft.
3
, have a closed cell content on the order of about 85% and have low friability characteristics.
Ordinarily, the polyols are poly-functional; that is, the polyol molecule has two or more branches, which provide linking sites for cross-polymerization. Historically, the blowing agent is or at least includes one or more chlorofluorocarbon (CFC), often in combination with water. However, CFCs have been the subject of environmental concern in view of the deleterious effects that they have been reported to have on the earth's ozone layer. Therefore, it is desirable to avoid use of CFCs and the industry for many years has been searching for viable alternative blowing agents suitable for preparation of rigid polyurethane foam.
Certain processes that employ HCFCs in place of CFCs have been reported. For example, U.S. Pat. Nos. 5,032,623, 5,194,175 and 5,274,007 describe a process by which an HCFC, monochlorodifluoromethane (CHClF
2
), can replace traditional CFCs in the preparation of rigid foams. However, even HCFCs, while markedly better than CFCs in terms of deleterious environmental effects, still are associated with environmental risks and so it is optimal if even their use is avoided.
Attempts at the use of methyl formate as an alternative blowing agent have been reported, but those attempts have been unsuccessful in that the produced foams that have been produced with methyl formate as the primary or sole (other than, perhaps, water) blowing agent are unsatisfactory. In particular, it has been found that such foams have a foam shrinkage of more than 10% and so demonstrate poor dimensional stability. See, for example, U.S. Pat. No. 5,283,003 to Chen. Thus, use of methyl formate as a blowing agent has been reported to produce a dimensionally stable foam only when used in combination with a substantial amount of one or more additional blowing agents such as organic or even hydrocarbon or traditional CFC or HFC types of blowing agents. According to the U.S. Pat. No. 5,283,003 to Chen, methylene chloride and/or five-carbon hydrocarbons (e.g., n-pentane, isopentane, and/or cyclopentane) blowing agents must make up at least about 20% by weight of the total blowing agent combination. U.S. Pat. No. 5,883,146 to Tucker describes the use of formic acid (or a salt thereof) as a blowing agent, but only in combination with a C
1
to C
4
hydrofluorocarbon. Although the patent to Tucker does not define the necessary relative proportions of the formic acid (or salt thereof) and the hydrofluorocarbon, the exemplification show that the hydrofluorocarbon must make up at least about half the blowing agent combination by weight.
Accordingly, the rigid foam industry is still searching for methods and compositions that would enable methyl formate or a related compound to be used as a blowing agent that can produce a rigid foam that meets the standards for such foams, but without the need for other organic blowing agents. Such standards include not only those relating to density and closed cell content, but also those relating to dimensional stability (resistance to shrinkage) as well.
SUMMARY OF THE INVENTION
Briefly, therefore, the present invention is directed to a novel method for producing a rigid, closed-cell polyurethane foam having a free-rise density of from about 1.3 lbs./ft.
3
to about 4 lbs./ft.
3
and exhibiting a shrinkage of less than 10%. According to the method, an isocyanate, a blend of polyols of hydroxyl numbers of from about 150 to about 800, and a methyl formate (and/or derivative and/or precursor thereof) blowing agent are mixed together to form a reaction mixture that produces the foam. The blend of polyols in which at least 50% by weight is made up of at least one polyol having a hydroxyl number of from about 150 to about 800 and being selected from the group consisting of polyalkoxylated amines, polyalkoxylated ethers, and polyester polyols.
The present invention is also directed to a novel reaction mixture that can react to form a rigid, closed-cell polyurethane foam having a free-rise density of from about 1.3 lbs./ft.
3
to about 4 lbs./ft.
3
and exhibiting a shrinkage of less than 10%. The reaction mixture comprises the isocyanate, the blend of polyols, and the methyl formate (and/or derivative and/or precursor thereof) blowing agent described above.
The present invention is also directed to a novel rigid, closed-cell polyurethane foam having a free-rise density of from about 1.3 lbs./ft.
3
to about 4 lbs./ft.
3
and exhibiting a shrinkage of less than 10%, comprising cells containing gas, at least about 40% by weight of the gas being a combination of methyl formate and carbon dioxide.
Among the several advantages found to be achieved by the present invention, therefore, may be noted the provision of a method for preparation of rigid foam of high dimensional stability in which standard CFC, HCFC, HFC and hydrocarbon blowing agents are not needed; the provision of such method in which no standard organic blowing agent other than methyl formate is needed; the provision of a reaction mixture that does not include CFC, HCFC, HFC or hydrocarbon blowing agents, but still can produce such foams; the provision of such CFC-free, HCFC-free and HFC-free foams themselves; and the provision of such foams suitable for use as a flotation foam in watercraft, as a structural foam or as an insulation foam.
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patent: 5227408 (1993-07-01), Hanna et al.
patent: 5274007 (1993-12-01), Keske et al.
patent: 5283003 (1994-02-01), Chen
patent: 5336696 (1994-08-01), Ashida
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patent: 5424338 (1995
Kalinowski Timothy T.
Keske David G.
Matimba Victor
Modray David L.
Schulte Mark
Cooney Jr. John M.
Foam Supplies, Inc.
Sonnenschein Nath & Rosenthal LLP
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