Stock material or miscellaneous articles – Hollow or container type article – Polymer or resin containing
Reexamination Certificate
2001-03-06
2004-05-04
Pyon, Harold (Department: 1772)
Stock material or miscellaneous articles
Hollow or container type article
Polymer or resin containing
C428S323000, C428S325000, C428S045000, C428S920000, C428S921000, C524S495000, C524S127000, C524S141000, C524S115000, C523S179000
Reexamination Certificate
active
06730381
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to intumescent fire-protection strips jacketed on three sides and to combined cold- and hot-gas seals, these being produced by coextrusion.
DESCRIPTION OF THE RELATED ART
A very wide variety of intumescent strips are known, and an example of their use is as a hot-gas seal for fire-protection doors or fire-protection windows. For example, WO 98/30654 gives a fairly general description of a halogen-free intumescent composition which comprises a carrier material and an intumescent component. The carrier materials used here are various halogen-free polymers capable of changing their shape on exposure to heat. The intumescent component may be graphite or vermiculite, for example. This composition may also comprise one or more halogen-free flame retardants. The individual constituents are first mixed and then extruded as strips. Where appropriate, these strips may also be jacketed. This jacket may be composed of a rigid or flexible plastic, and it comprises no other constituents. WO 98/30654 does not describe any trials or indicate the functionality of the strips claimed.
EP-A1-0 509 701 describes a fire-protection strip composed of an intumescent material, such as Palusol, jacketed by a rigid plastic, such as rigid polyvinyl chloride (PVC), and the jacket here has a connection to a flexible seal part made from a flexible plastic, such as PVC or a flexible thermoplastic elastomer compatible with rigid PVC.
Another variant is known from EP-B1-0 745 751. According to EP-B1-0 745 751, 2 types of intumescent strips are produced. For example, a fully jacketed strip is produced by coextrusion of an elongate support with an inner cavity, preferably made from rigid PVC, and of an elongate insert made from a flexible material which swells, the insert being extruded into the cavity of the support. The support here is extruded with a relatively high temperature, while the insert is extruded with a low temperature. The extruded components here first have to be rapidly passed through a cooled shaping apparatus and then through another cooling apparatus. To obtain a fire-protection strip jacketed on three sides, the intumescent insert is extruded into the cavity of the support once the latter has been extruded.
It was an object of the present invention to find new fire-protection strips which firstly have properties superior to those of the prior art, for example a higher expansion factor, a higher ignition residue, and a higher blow-out time, and which secondly can be produced at various widths by simple coextrusion without complicated additional apparatus, such as cooling apparatus.
BRIEF SUMMARY OF THE INVENTION
Unexpectedly, it was possible to achieve this object by means of a strip jacketed on three sides, where both the jacket of these strips and their intumescent composition are composed of specific thermoplastic elastomers which have very good qualities in relation to use with fillers, and where the intumescent composition of these strips those comprises, inter alia, a sulfuric-acid-treated graphite.
The present invention therefore provides coextruded, intumescent fire-prevention strips jacketed on three sides and composed of
a) an intumescent composition made from
a
1
) a thermoplastic elastomer with a processing temperature of not more than 250° C. selected from the class consisting of block copolymers and uncrosslinked thermoplastic polyolefins,
a
2
) sulfuric-acid-treated graphite,
a
3
) flame retardant, and
a
4
) an inorganic additive which forms an enamel or forms a ceramic,
and
b) a three-sided jacket, where appropriate in association with a chambered profile, made from
b
1
) a thermoplastic elastomer with a processing temperature of not more than 250° C. selected from the class consisting of block copolymers and uncrosslinked thermoplastic polyolefins,
b
2
) flame retardant, and, where appropriate,
b
3
) a color pigment, and obtained by coextrusion of a) and b).
DETAILED DESCRIPTION
The fire-protection strips of the invention are therefore composed of an intumescent composition a), surrounded on three sides by the jacket b).
Both the intumescent composition a) and the jacket comprise a thermoplastic elastomer (TPE) with a processing temperature of not more than 250° C. selected from the class consisting of block copolymers and uncrosslinked thermoplastic polyolefins. The TPEs used preferably have a processing temperature of not more than 200° C.
Suitable TPEs are block copolymers of styrene type (TPE-S), such as styrene-butadiene-styrene block copolymers or styrene-isoprene-styrene block copolymers (e.g. Kraton D, from the company Shell Chemical), or styrene-ethylene-co-butadiene-styrene block copolymers (e.g. Kraton G from the company Shell Chemical), polyether-polyamr de block copolymers (TPE-A), (e.g. Pebax from the company Atochem), polyurethane-polyether or -polyester block copolymers (TPE-U) (e.g. Elastollan from the company BASF), or polyether-polyester block copolymers (TPE-E) (e.g. Hytrel from the company DuPont).
Other suitable polymers are uncrosslinked thermoplastic polyolefins (TPE-O). These are ethylene-octene copolymers prepared, for example, by metallocene catalysis (e.g. Engage from the company DuPont or Exact from the company DSM).
Where appropriate, conventional additives such as impact modifiers, coupling agents, antioxidants, etc. may be added to the TPE used. Examples of impact modifiers and coupling agents which may be used are those from the family of polyolefinic plastics grafted with a reactive maleic anhydride group (e.g. Fusabond from the company DuPont), random copolymers having methacrylic acid functionality in a base skeleton of polyethylene (e.g. Surlyn from the company DuPont) or polymers based on a skeleton in which there is a random distribution of glycidyl methacrylate as reactive group together with ethylene units and acrylate units (e.g. Elvaloy from the company DuPont). Preference is given here to polymers based on a skeleton in which there is a random distribution of glycidyl methacrylate as reactive group together with ethylene units and acrylate units.
Examples of antioxidants which may be used are compounds based on benzene-propionic acid derivatives, such as Irganox from the company Ciba-Geigy, or compounds based on phosphorus-containing bisdimethylethylphenyl derivatives, for example Irgafos from the company Ciba-Geigy.
A compatible polymer such as polyethylene (e.g. LLDPE) may also be added as a diluent to the appropriate TPE for reasons of cost. It is preferable for these additives to be added to the TPE-Os. The block copolymers are preferably used without additives, but it is possible to dilute a block by adding a suitable polymer. For example, polybutadiene or polystyrene may be added to a styrene-butadiene-styrene block copolymer.
The proportion of TPE or, where appropriate, of TPE in about 20 to about 80% by weight, preferably from 25 to 60% by weight, both in the intumescent composition a) and in the jacket.
The proportion of TPE in the jacket is preferably higher here than in the intumescent composition.
It is moreover preferable for the same TPE to be used for the intumescent composition a) and for the jacket b).
Besides the TPE (a
1
), the intumescent composition a) also comprises a sulfuric-acid-treated vermicular graphite (S graphite) (a
2
). The amount of S graphite is from 10 to 50% by weight, preferably from 20 to 45% by weight.
As third component a
3
), the intumescent composition a) comprises a flame retardant. Preference is given to the use of halogen-free flame retardants. Particular preference is given to the use of nitrogen-phosphorus compounds, such as melamine
The fire-protection strips of the invention may be used as a hot-gas seal, for example for fire-protection doors or fire-protection windows.
In one particular embodiment, the fire-protection strip of the invention has a structure such that it can function either as a hot-gas seal or else as a cold-gas seal. This combined cold- and hot-gas seal has spatially separated functions. The manner of achieving this is tha
Intumex Brandschutzprodukte AG
Pyon Harold
Simone Catherine A.
Wenderoth , Lind & Ponack, L.L.P.
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