DE19719593A1 - Blends of polyolefin] and styrene-hydrocarbon random copolymer - Google Patents

Abstract

A polymer blend consisting of polyolefin(s) (I), e.g. polypropylene homo- or copolymers, or respective mixtures (II), containing: (a) 5-95, preferably 20-70 wt.% styrene-segments; and (b) hydrocarbon segments.

Description

The invention relates to polymer mixtures consisting of polyolefins such as polypropylene Homo- or copolymers or mixtures thereof and statistical copolymers styrenic segments and hydrocarbon segments.

It is known to use transparent tube material for medical applications To choose polymers. For infusion or transfusion purposes, this is called generic according to the prior art, EP 0 396 879 B1. The one described there Transmission system has including the transmission hoses used therein high transparency to better control the drip chamber filling and also one improved setting of the drip sequence as a criterion for the amount of liquid per Achieve unit of time. Polystyrene is the preferred plastic in this publication and called polystyrene homopolymer.

The cited document contains a reference to EP 0 007 601, in which further plastics suitable for the generic application are described as follows:
Polyvinyl chloride, polyamide, polystyrene, polypropylene, styrene-butadiene-styrene, styrene-isoprene-styrene, styrene-acrylonitrile, acrylonitrile-butadiene-styrene, styrene-butadiene, methyl-methacrylate-butadiene-styrene, methyl acrylate-styrene-acrylonitrile, polyethylene Ethylene vinyl acetate, polybutene, polymethylpentene and polyacrylic acid esters. A further note from this publication names DE-OS 22 16 987, in which polyolefins, polycarbonates, cellulose esters are also mentioned in addition to PVC.

For the production of tubes, especially those used in the medical field plasticized polyvinyl chloride (soft PVC) is generally used today used. This material has a number of positive and practical properties properties that have never been achieved by any other polymer material inexpensive.  

Soft PVC is predestined for use as a hose material in medical articles because of its transparency, its active ingredient resistance, its kink resistance, because of its resilience, because of its stickability with solvents and its Weldability, because of the easy possibility of hardness adjustment via the Plasticizer content, due to the acceptable blood tolerance and its steam, Ethylene oxide and radiation sterilizability.

Despite these advantages, has been intensively looking for others in recent years Materials sought in particular because of the problem of the chlorine content in soft PVC. This problem arises from the fact that medical articles such as infusions hoses are generally used as one-off items for hygienic reasons. The Disposal of the used material, which is to be regarded as a special mule, takes place usually by combustion. When burning PVC products can as Pollutants but chlorine-containing, low molecular weight compounds such. B. hydrochloric acid and chlorinated dibenzodioxins are formed. The incinerators in hospitals are but usually not equipped to deal with such pollutant emissions speaking control of the combustion process or by post-treatment of the to prevent combustion gases arising. Because of the necessary Disposal of hospital waste in hazardous waste incineration plants occurs Hospitals this way additional costs. Another disadvantage of soft PVC is the possible migration of the plasticizer from the container and hose walls in the contained infusion solutions or - e.g. B. in dialysis - in body fluids. This plasticizer migration can e.g. B. also in the case of beverage hoses Taste problems result when the drink is in such tubes for a long time stands still.

Therefore, in the medical field u. a. also thermoplastic polyurethanes e.g. B. used for the production of venous catheters. For beverage hoses, PVC Alternative ethylene vinyl acetate (EVA) optionally in combination with others coextruded tubing layers used.  

The investigation of hoses with alternative materials from the prior art compared to soft PVC have shown that these materials can be used on tubing in medical and Food requirements can only partially meet. The for The most important criteria for use are sterilizability, the best possible transparency and the kink resistance. When it comes to sterilization, steam sterilization is particularly important availability as the most ecologically sensible method. Steam sterilization provides for many products (e.g. blood infused with sodium citrate) bag) is the only risk-free procedure small bending radii and thus the interruption of the liquid transport and a not Recognized inclusion of air bubbles as a result of a lack of transparency can affect them Areas of application lead to catastrophic consequences.

Polyurethanes, for example, can be harmful to health during steam sterilization Form amines. They're already in the hospital because of the burn reject uncontrolled released nitrogen oxides. Ethylene vinyl acetate polymers have a lack of kink resistance and are required for infusion tubing Softness and the high vinyl acetate content required as a result steam sterilizable without sticking.

The disadvantages of many styrene block copolymers such as styrene-ethylene-butylene-styrene copolymers (SEBS), also in the form of their blends with polypropylene, lie in their bad kink resistance and in the use of migratable and extractable white oils for Softening. Such blends also have only moderate transparency.

This is where the invention, which has set itself the task, a hose material specify which does not have the disadvantages of the prior art and in particular the three main criteria of sterilizability - preferably steam sterilizability, trans Parenz and kink resistance optimally combined in the end product. Invention according to it is proposed that the share of statistical, styrenic segments containing copolymers between 5 and 95 percent by weight, preferably between 20 and Is 70 percent by weight.  

It has surprisingly been found with the present invention that polymer Blends from polyolefins such as polypropylene and statistical copolymers of ethylene with Styrene lead to materials that have the required properties of steam sterilization, Kink resistance and transparency in combination to a previously unknown degree meet, so that such materials are considered the first time usable PVC alternatives can be.

The styrene component of the statistical - or quasi-statistical - described Copolymers can consist of styrene itself as well as substituted styrenes. Other components of these copolymers are aliphatic hydrocarbon segments that from olefins and / or dienes - possibly with subsequent hydrogenation of the after polymerization remaining unsaturated segments - arose during the copolymerization. There In addition, polar components, such as. B. methyl methacrylates. Ethylene is particularly suitable as a comonomer forming hydrocarbon segments and other alpha olefins and dienes. Such copolymers are then special useful if it generated longer-chain, possibly in situ during the polymerization Alpha-olefins contained in a statistical distribution along the polymer chain. Such Products can be produced in a known manner using special polymerization catalysts and contribute significantly to the processability of the plastic, especially via extrusion techniques at.

The polyolefin component of the blends consists of homopolymers and / or statistical Copolymers, block copolymers, block copolymers of propylene with alpha olefins such as As ethylene, butene, hexene, octene, methyl pentene, with polar comonomers such as Vinyl acetate, acrylates such as methyl methacrylate, butyl acrylate, maleic anhydride, itacon acid anhydride, vinyl oxazolines, acrylic acid, glycidyl esters of acrylates etc.

It is crucial for the transparency and softness of the material the reduced crystallinity of the material, which isotactic polypropylene Sequences.  

The reduced proportion of crystallite is adjusted by the crystallizability of the used polypropylene, which is disturbed by built-in comonomers, and by the polypropylene content itself.

A certain amount of crystallinity is required to ensure that the material is suitable for the Steam sterilization - usually at 121 ° C under pressure (2 bar) - the required temperature to give stability.

Transparency is also influenced by the type and proportion of statistical styrene Copolymers. The composition of these copolymers determines their refractive index. In order to achieve the highest possible transparency of the blend, it is advantageous if the Refractive index of the styrene random copolymer is the refractive index of the amorphous Phase of the polypropylene component is adapted as well as possible, since then the lowest Scattering occurs at the phase boundaries. The refractive index of the statistical styrene The copolymer and the propylene polymer can also be matched, propylene polymer mixtures on the one hand and styrene-copolymer mixtures on the other Production of the blends can be used. Ensure high transparency in the more phase blends also include domain sizes that are well below the light wavelengths lie. This can also be done using the viscosity ratio of matrix and disperse phase Be influenced.

The flexibility of the segments is decisive for the softness or flexibility of the soft polymer, which can also be selected by selecting styrene copolymers with suitable ones low molecular weights can be influenced positively. Depending on the foreseen Application, it is also possible to mix the mixture of low molecular weight compounds such. B. Add oils or oily oligomers for further flexibility, if these are enrich mainly in the phase of statistical styrene copolymers. For a short time Applications in the medical field include the use of low molecular weight Hydrocarbons possible, because they are harmful to health molecular connections cannot take place due to time constraints.  

The blends according to the invention are produced by mixing the melts Components z. B. on discontinuous kneaders, continuously working Mehram note or preferably in continuous operation on compounding extruders such as Twin screw kneaders, if necessary - with a suitable design of mixing elements and the Discharge units - in a single operation together with the shaping process in a known manner at temperatures above the crystallite melting point of isotactic polypropylene.

Examples 1 to 5 and a comparative example are shown in the table below.

The polymer mixtures indicated were prepared in a twin-screw kneader and extruded into tubes with a diameter of 3 mm and a wall thickness of 0.5 mm. The The tubes were assessed after 24 hours of storage. The was carried out visual assessment of transparency compared to that used in the medical field Infusion tubing of the same dimensions made of soft PVC. The kink resistance test is done in the usual way by bending the hose in the specified radius. The The steam sterilizability was tested on the basis of the hose wrapped in film roll performed under the specified parameters.  

All samples showed neutral taste and smell. Hoses of 2 m length placed in 100 cm ^{3 of} drinking water showed no detectable change in taste of the water after 48 hours at 40 ° C.

Test specimens of the dimensions were used to demonstrate processing by injection molding 10 × 80 × 4 mm manufactured while the mold temperature was kept at 20 ° C. To the Evidence of the required melt stability for the extrusion blow molding process Manufacture of soft hollow bodies and containers were from Examples 1 and 3 to 5 Variants made in which the polypropylene homopolymer by correspondingly higher molecular polypropylene (MFI 0.2 at 190 ° C / 2.16 kg) was replaced. The melt Stabilities were compared to that of an extrusion blowable polyethylene (MFI 0.5 190 ° C / 2.16 kg) estimated by determining the relative elongation speed a melt strand emerging from the twin-screw kneader. The deviations were in the range below 12%. The transparency, based on extruded tapes the 5 × 1 mm cross-sectional dimensions were comparable to one in all cases transparent soft PVC tape of the same dimensions.

Claims (4)

1. polymer mixtures consisting of polyolefins such as polypropylene homo- or Copolymers or mixtures thereof and statistical copolymers styrenic segments and hydrocarbon segments, the proportion of sta copolymers containing styrenic segments between 5 and 95 Percent by weight, preferably between 20 and 70 percent by weight. 2. Polymer mixtures according to claim 1, characterized in that the mixtures compatible with the statistical, styrenic copolymers as further components Oils and processing aids such as lubricants, stabilizers such as antioxidants and contain stabilizers such as light stabilizers. 3. Polymer mixtures according to claim 1, characterized in that the polyolefin Component as well as the statistical, styrenic copolymers in each case mixtures various polyolefins and statistical copolymers. 4. Use of polymer mixtures according to the preceding claims for the production of medical tubes, beverage tubes, film tubes Chen, injection molded articles, extrudates, blown extrudates and composite parts orders from this.