Method of making multilayer insulation product
First Claim
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1. A method of making a multilayered insulation product comprising:
- applying a retention layer to a first fibrous insulation layer which is susceptible to delamination, the retention layer being a material selected from films and webs, where the application of the retention layer compresses the first insulation layer during the application of the liquid;
applying a hardenable liquid to the retention layer, the retention layer having a Frasier air permeability of at least about 300 ft3 /min per ft2 (5,490 m3 /hr per m2) such that some of the liquid passes through the retention layer and forms an adhesive layer on the first insulation layer, and the retention layer having a Frasier air permeability of not greater than about 1500 ft3 /min per ft2 (27,450 m3 /hr per m2) such that the liquid penetrates only minimally into the first insulation layer, and the retention layer prevents delamination of the first insulation layer during the application of the liquid;
applying a second fibrous insulation layer to the retention layer; and
hardening the liquid to bond the retention layer to the first insulation layer and to the second insulation layer.
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Abstract
A method of making a multilayered insulation product includes applying a retention layer to a first fibrous insulation layer, where the retention layer is porous to enable liquids to pass therethrough, applying a hardenable liquid to the retention layer, where some of the liquid passes through the retention layer and contacts the first insulation layer, and hardening the liquid to bond the retention layer to the first insulation layer. A second fibrous insulation layer can be applied to the retention layer after the liquid is applied to the retention layer, in which case the hardening of the liquid bonds the retention layer to the second insulation layer.
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Citations
13 Claims
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1. A method of making a multilayered insulation product comprising:
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applying a retention layer to a first fibrous insulation layer which is susceptible to delamination, the retention layer being a material selected from films and webs, where the application of the retention layer compresses the first insulation layer during the application of the liquid; applying a hardenable liquid to the retention layer, the retention layer having a Frasier air permeability of at least about 300 ft3 /min per ft2 (5,490 m3 /hr per m2) such that some of the liquid passes through the retention layer and forms an adhesive layer on the first insulation layer, and the retention layer having a Frasier air permeability of not greater than about 1500 ft3 /min per ft2 (27,450 m3 /hr per m2) such that the liquid penetrates only minimally into the first insulation layer, and the retention layer prevents delamination of the first insulation layer during the application of the liquid; applying a second fibrous insulation layer to the retention layer; and hardening the liquid to bond the retention layer to the first insulation layer and to the second insulation layer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of making a multilayered insulation product comprising:
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applying a retention layer to a first mineral fiber insulation layer which is susceptible to delamination, the retention layer being a material selected from films and webs, where the application of the retention layer compresses the first insulation layer during the application of the liquid, the compression being within the range of from about 0.5 to about 0.1 times the uncompressed thickness of the first insulation layer; applying a liquid asphalt to the retention layer, the retention layer having a Frasier air permeability of at least about 300 ft3 /min per ft2 (5,490 m3 /hr per m2) such that some of the liquid asphalt passes through the retention layer and forms an adhesive layer on the first insulation layer, and the retention layer having a Frasier air permeability of not greater than about 1500 ft3 /min per ft2 (27,450 m3 /hr per m2) such that the liquid asphalt penetrates only minimally into the first insulation layer, and the retention layer prevents delamination of the first insulation layer during the application of the liquid asphalt; applying a second mineral fiber insulation layer to the retention layer; and hardening the liquid asphalt to bond the retention layer to the first insulation layer and to the second insulation layer. - View Dependent Claims (12, 13)
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Specification