Acoustical insulation foams

Plastic and nonmetallic article shaping or treating: processes – Pore forming in situ – By gas forming or expanding

Reexamination Certificate

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Details

C264S053000, C264S055000, C264S142000, C264S143000, C264S148000, C521S059000, C521S079000, C521S081000, C521S139000

Reexamination Certificate

active

06187232

ABSTRACT:

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT
Not Applicable
FIELD OF THE INVENTION
This invention describes a method for making acoustical insulation foams by expanding blends of polymers comprising (A) alkenyl aromatic polymers, and (B) vinyl or vinylidene aromatic and/or sterically hindered aliphatic or cycloaliphatic vinyl or vinylidene substantially random interpolymers. Suitable alkenyl aromatic polymers include alkenyl aromatic homopolymers and copolymers of alkenyl aromatic compounds and copolymerizable ethylenically unsaturated comonomers. A preferred alkenyl aromatic polymer is polystyrene.
The substantially random interpolymers comprise polymer units derived from ethylene and/or one or more &agr;-olefin monomers with specific amounts of one or more vinyl or vinylidene aromatic monomers and/or sterically hindered aliphatic or cycloaliphatic vinyl or vinylidene monomers. A preferred substantially random interpolymer is an ethylene/styrene interpolymer. Incorporation of the substantially random interpolymer in the blend with the alkenyl aromatic polymer results in an increase in the softness and flexibility of the resulting foam and an improvement in the acoutical insulation.
BACKGROUND OF THE INVENTION
Soft and flexible foams with small cell size are typically made by crosslinking and expanding polyolefins. Crosslinked olefinic foams are typically made from ethylenic polymers such as low density polyethylene, ethylene vinylacetate copolymer, homogeneous ethylene and/or &agr;-olefin homopolymers or interpolymers comprising ethylene and/or C
3
-C
20
&agr;-olefins including the substantially linear ethylene/&agr;-olefin interpolymers. These include the polyolefin plastomers, such as those marketed by The Dow Chemical Company under the AFFINITY™ tradename and polyethylene elastomers, such as those marketed under the ENGAGE™ tradename by Du Pont Dow Elastomers PLC.
Crosslinking is achieved by conventional means such as peroxides, silane and/or radiation. Some of the advantages of crosslinked foam over noncrosslinked foams are smaller cell sizes (typically less than about 1 mm), smooth skin and D thermoformability. However, there are several disadvantages of crosslinked foams, such as: (1) the chemical blowing agents used (for example, azodicarbonamide) are expensive; (2) crosslinked foams expanded with nitrogen are made in energy intensive equipment at high pressures (typically about 10,000 to 30,000 psi); (3) the processes used to make the foams are typically batch processes which are expensive to operate; and (4) the foams cannot be recycled. On the other hand, non-crosslinked olefinic foams are made in continuous processes at relatively high production rates using less expensive physical blowing agents (such as isobutane) and the foams can be recycled (which is environmentally desirable), but these foams are difficult to thermoform.
It is desirable to make soft and flexible non-crosslinked foams with small cell sizes and good aesthetics that could be used as alternatives to crosslinked foams for acoustical insulation without the disadvantages listed above. We have surprisingly found that non-crosslinked foams made from blends of alkenyl aromatic polymers and specific types and amounts of substantially random interpolymers are soft and flexible with small cell sizes and function as effective acoustical insulators. Furthermore, the foams are thermoformable and can be recycled.


REFERENCES:
patent: 4076698 (1978-02-01), Anderson et al.

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