Non-porous, breathable membrane containing polyamide-4,6

Details Non-porous, breathable membrane containing polyamide-4,6 Non-porous, breathable membrane containing polyamide-4,6

2002-04-03

2004-03-16

Hightower, P. Hampton (Department: 1711)

Stock material or miscellaneous articles

Composite

Of polyamide

C428S220000, C428S221000, C428S332000, C428S339000, C428S411100, C428S423500, C428S474700, C264S165000, C264S172190, C264S173100, C264S173140, C264S173150, C264S176100, C264S211210, C442S050000, C442S051000, C442S181000, C442S327000, C442S394000

Reexamination Certificate

active

06706413

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of Invention
The present invention relates to a membrane that is breathable, i.e., impermeable to water and permeable to water vapor.
2. Description of Related Art
It is well known that the inclusion of breathable membranes increases wearing comfort in clothing.
Breathable membranes made from non-porous polyether ester, polyether amide, or polyurethane are known. However, the heat resistance of these known breathable membranes is insufficient for use in thermally protective clothing.
A sufficiently heat resistant, breathable membrane made from porous polytetrafluoroethylene (PTFE) is known for clothing requiring a high degree of thermal protection, such as that for firefighters. However, the breathability of this PTFE membrane can be impaired due to its porous structure, not only by clogging of the pores which reduces the water-vapor permeability, but also by wetting of the pores with surfactants which eliminates the water impermeability. Furthermore, recyclability is impaired compared to breathable laminates made from polyether ester, polyether amide, or polyurethane.
SUMMARY OF THE INVENTION
The present invention therefore has the object of providing a breathable membrane that is suitable for use in thermally protective clothing and that at least significantly reduces the disadvantages of the known breathable membranes.
This object is satisfied in the present invention by a non-porous, breathable membrane comprising at least polyamide-4,6, with an elongation at rupture of about 250 to about 500% in a longitudinal direction and about 200 to about 500% in a transverse direction.
The membrane of the invention is not only breathable to a great extent, but it also exhibits a higher heat resistance compared to the breathable membranes made from polyether ester, polyether amide, or polyurethane.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
According to the invention, the term polyamide-4,6 includes not only polyamide-4,6, i.e., polytetramethylene adipamide, but also a copolymer comprising at least about 90% polytetramethylene adipamide units and a comonomer such as caprolactam, wherein the comonomer fraction is preferably about 5 to about 6%.
The existence of an antioxidant permits a further increase in the heat resistance of the membrane of the invention so that the membrane containing an antioxidant passes the oven/watertightness test detailed later. For this reason, the membrane of the invention preferably comprises polyamide-4,6 and a commercially available antioxidant such as CIBA GEIGY IRGANOX® 1098 or IRGANOX 1330, or the potassium iodide/copper iodide system.
The membrane of the invention preferably comprises an amount of antioxidant that is from about 0.1 to about 1% by weight, and more preferably from about 0.1 to about 0.5% by weight, with respect to the polyamide-4,6.
In another preferred embodiment, the membrane of the invention comprises a mixture of polyamide-4,6 and a polyether amide, where the latter can be, for example, a polyether amide as disclosed in EP-A 0 761 715.
Preferably, the fraction of the polyether amide with respect to polyamide-4,6 is about 5 to about 30% by weight. Surprisingly, it was discovered that in the cited composition range, the membrane made from a mixture of polyamide-4,6 and polyether amide has a higher water-vapor permeability than would be expected considering the fractions of polyamide-4,6 and polyether amide in the mixture and the water-vapor permeability of pure polyamide-4,6 and pure polyether amide.
An underlying object of the invention is further satisfied by a process for producing a non-porous, breathable membrane, comprising the following steps:
a) providing pellets comprising polyamide-4,6, wherein the pellets are pressed from a powder that comprises at least a polyamide-4,6 powder resulting from the production of polyamide-4,6,
b) feeding the pellets to an extruder,
c) converting the pellets in the extruder into a melt,
d) extruding the melt at a rate of about 10.0 to about 20.0 kg/h through a slit die having a slit thickness of about 0.4 to about 0.8 mm and a slit width of about 600 to about 1000 mm, to form a film on a moving surface moving at a rate of about 5.2 to about 43.1 m/min,
e) withdrawing the film from the moving surface at a rate of about 5.3 to about 44.0 m/min,
f) passing the film over a cooling roller moving at a rate of about 5.3 to about 44.0 m/min, and
g) winding up the resulting membrane at a rate of about 5.5 to about 47.0 m/min,
wherein steps c) to g) are conducted such that a wound-up membrane has an elongation at rupture of about 250 to about 500% in a longitudinal direction and about 200 to about 500% in a transverse direction.
The process of the invention results in a membrane that is not only breathable to a great extent, but also exhibits a higher heat resistance compared to the breathable membranes made from polyether ester, polyether amide, or polyurethane.
According to the invention, the polyamide-4,6 powder used in step a) of the process of the invention for producing the pellets is understood to be not only polyamide-4,6 powder, i.e., polytetramethylene adipamide powder, but also a copolymer powder comprising at least about 90% polytetramethylene adipamide units and a comonomer such as caprolactam, where the comonomer fraction is preferably about 5 to about 6%.
If an antioxidant is used in addition to polyamide-4,6 in step a) of the process of the invention for producing pellets, a membrane is produced with a heat resistance that is even higher so that the membrane of the invention comprising an antioxidant passes the oven/watertightness test detailed later. For this reason, in a preferred embodiment of the process of the invention, the pellets in step a) are pressed from a powder that comprises the polyamide-4,6 powder resulting from the production of polyamide-4,6, and an antioxidant, where CIBA GEIGY IRGANOX® 1098 or IRGANOX® 1330, or the potassium iodide/copper iodide system, serves as the antioxidant, for example.
In another preferred embodiment, the pellets in step a) of the process of the invention can first be pressed from the polyamide-4,6, powder resulting from the production of polyamide-4,6 and then coated with an antioxidant.
The fraction of antioxidant used in step a) of the process of the invention is preferably about 0.1 to about 1% by weight, and more preferably about 0.1 to about 0.5% by weight, with respect to the polyamide-4,6.
In a further preferred embodiment of the process of the invention, polyamide-4,6 powder is mixed with a polyether amide in step a) and pressed into pellets. Examples of polyether amides that can be used are disclosed in EP-A 0 761 715, incorporated herein by reference.
In the process of the invention, the fraction of polyether amide is preferably about 5 to about 30% by weight, with respect to the polyamide-4,6.
The pellets provided in step a) of the process of the invention preferably have a cylinder-like shape, and pellets with a length of about 3 to about 7 mm and width of about 2 to about 4 mm are especially preferred.
Surprisingly, it was discovered that when using pellets in the aforementioned composition range of polyamide-4,6 and polyether amide, a breathable membrane is produced with a water-vapor permeability higher than would be expected on the basis of the fractions of polyamide-4,6 and polyether amide in the mixture and the water-vapor permeability of pure polyamide-4,6 and pure polyether amide.
In step b) of the process of the invention, the pellets are fed to an extruder. The extruder is preferably a 3-zone screw extruder.
In step c) of the process of the invention, comprising converting the pellets in the extruder into a melt, a first extruder zone preferably has a temperature of, for example, about 275 to about 285° C., a second extruder zone has a temperature of, for example, about 305 to about 315° C., and a third extruder zone has a temperature of, for example, about 300 to about 310° C.
In step d) of the process of the invention, the melt is extruded through a slit die onto a movable surface

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