CZ30274U1 - A concentrate for antimicrobial stabilization of plastic surfaces formed on the basis of an inorganic biologically active substance - Google Patents

Description

Technical field

The invention relates to a concentrate composition which is intended for antimicrobial stabilization of plastic surfaces. The concentrate is formed on the basis of an inorganic biologically active substance and its application is envisaged in plastic products such as polyolefins, polyesters, vinyl polymers and copolymers of these polymers.

BACKGROUND OF THE INVENTION

It is known that polymer surfaces are not resistant to microbial colonization. This phenomenon can have negative consequences for the health of the population, but also the economic consequences associated with the emergence of infections associated with the use of plastic products.

The emergence and spread of nosocomial infections, the occurrence of which is associated with the use of medical devices that are nowadays made of plastics or containing plastic components, is often mentioned as the primary negative. However, the fear of unwanted transmission of pathogenic microorganisms is also justified in non-medical applications such as public transport and other places where a higher density of people occurs.

The secondary negative phenomenon associated with the bacterial settlement of plastic surfaces is the increased economic costs associated with spoilage of the material that is packaged in the plastic container. The microbial attack itself can then come from the packaged raw material itself (eg in the case of foodstuffs) or from external sources (eg, fabric in inappropriate storage).

For the above reasons, antimicrobial modifications of plastics are of interest to both scientists and industrial manufacturers. In principle, there are two methods of antimicrobial modification of plastics. The first is associated with the surface treatment of the plastic surface by means of thin film deposition in the form of a thin coating film or surface chemical modification.

The second method consists in modifying the plastic product in its entirety, which is a technologically and economically undemanding method. On the other hand, it should be noted that the efficacy of the antimicrobial modification carried out in volume is relatively low due to the limited possibilities of transporting the active substance to the surface of the article. Additives in the form of masterbatches containing an antimicrobial compound and other additives improving the transport processes in the polymer matrix are used to increase efficiency.

Most of the commercially available concentrates are based on metals, their salts and optionally organometallic compounds. Among them, silver, zinc, or copper or iron are most widespread. However, these compounds are relatively expensive and their use is often not legally resolved, especially for products which come into direct contact with foodstuffs.

An important factor is the concentration range of the antimicrobial function of the additive while ensuring the safety of the modified product with respect to the migration of the antimicrobial active substance into the environment. Most of the commercial concentrates require a minimum dosage above 1% by weight, however, contradictions with the above safety conditions can already be expected.

The essence of the technical solution

These disadvantages and drawbacks of the known antimicrobial treatment of plastics are largely eliminated by the concentrate for antimicrobial stabilization of plastic surfaces formed on the basis of an inorganic biologically active substance according to the invention. The essence of the invention is that the concentrate contains 50 to 80 wt. % thermoplastic polymer carriers selected from the group consisting of polyolefins, polyesters, vinyl polymers and copolymers of these polymers, and 20 to 50 wt. % of a biologically active substance, which is ferrous sulphate, the concentrate is intended to be metered into the polymer mixture to a final active substance concentration of 0.2 to 1 wt.

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CZ 30274 Ul

The concentrate for antimicrobial stabilization of plastic surfaces according to the invention preferably comprises an addition of 1 to 25 wt. parts of a substance-based dispersant selected from the group consisting of low molecular weight polyethylene waxes, zinc stearate and magnesium stearate, wherein the addition of the dispersant is based on 100 wt. parts of a mixture of a polymeric carrier and a biologically active substance.

The main advantage of the concentrate for antimicrobial stabilization of plastic surfaces according to the technical solution is that it is sufficiently effective in a relatively wide range of activities even at relatively low concentrations of the biologically active substance. The plastics treated with the concentrate according to the invention have been shown to be resistant to microbial colonization of their surfaces with Gram positive and Gram negative bacterial strains, even at concentrations of active substance below 1% by weight.

Another significant advantage of the concentrate according to the technical solution from the point of view of end applications is the fact that the resulting plastic material does not show significant migration of the active substance from the treated plastic to the surroundings. Thus, there is no contamination of the environment by the bioactive component and the antimicrobial protection of the product remains.

From the technological point of view, the thermal stability of the concentrate according to the invention (i.e. the stability of the combination of a biologically active substance with a co-carrier and optionally a dispersant) at temperatures corresponding to thermoplastic treatment of conventional polymers identical to or compatible with the polymer carrier material, i.e. polyolefins, polyesters copolymers.

Examples of technical solutions

Example 1

By means of a twin screw extruder, a concentrate consisting of 70 wt. % polyolefinic polymeric carrier polypropylene (CAS 9003-07-0) and 30 wt. ferrous sulphate - FeSO ₄ (CAS 7720-78-7). This concentrate was subsequently used for antimicrobial stabilization of the polypropylene in such an amount that the concentration of FeSO ₄ in the final material was 0.5% by weight. (i.e., 0.184 wt% iron). The surface of the resulting system was tested according to ISO 22196 ("Measurement of antibacterial activity on plastics and other non-porous surfaces") and showed antimicrobial activity against Staphylococcus aureus and Escherichia coli, which represents a reduction of bacterial populations by 5 orders. 99.999% compared to unmodified polypropylene with the same processing history. The samples were also subjected to migration test in various simulants according to the standard ČSN EN 1186. The concentration of biologically active substance in all obtained and tested extracts was below 0.5 mg / dm ² .

Example 2

By means of a twin screw extruder, a concentrate consisting of 50 wt. % polyolefinic polymeric carrier-ethylene vinyl acetate-EVA copolymer (CAS 24937-78-8) and 50 wt. ferrous sulphate - FeSO ₄ (CAS 772078-7). This concentrate was then used for antimicrobial stabilization of EVA in an amount such that the concentration of FeSO ₄ in the final material was 0.2 wt%. (i.e., 0.074 wt% iron). The surface of the resulting system, again tested according to ISO 22196, showed antimicrobial activity against Staphylococcus aureus and Escherichia coli, which represents a reduction in bacterial population of 5 orders, a decrease in bacterial prevalence of 99.999% compared to unmodified EVA with the same processing history. The samples were also subjected to migration test in various simulants according to the standard ČSN EN 1186. The concentration of biologically active substance in all obtained and tested extracts was below 1.0 mg / dm ² .

Example 3

By means of a twin screw extruder, a concentrate of 80% by weight was prepared thermoplastically at 250 ° C. % Polyester Polyethylene Terephthalate Polymer (CAS 2503859-9) (CAS 24937-78-8) and 20 wt. Ferrous sulphate (FeSO ₄ ) (CAS 7720-78-7). This concentrate was used for antimicrobial stabilization of polyethylene terephthalate in an amount such that. 7.

The concentration of FeSO ₄ in the final material was 0.5% by weight. (i.e., 0.184 wt% iron). The surface of the resulting system tested according to ISO 22196 showed antimicrobial activity against Staphylococcus aureus and Escherichia coli, which represents a reduction of bacterial settlement by 4 orders, ie a 99.99% reduction in bacterial prevalence compared to unmodified polyethylene terephthalate with the same processing history. The samples were also subjected to a migration test in various simulants according to the standard ČSN EN 1186. The concentration of biologically active substance in all obtained and tested extracts was below 0.5 mg / dm ² .

Example 4

Under the same conditions as described in Example 1, a mixture consisting of 50 wt. % polyolefinic polymeric carrier - ethylene vinyl acetate - EVA copolymers (CAS 24937-78-8) and 50 wt. ferrous sulphate - FeSO ₄ (CAS 7720-78-7). A low molecular weight polyethylene wax dispersant in an amount of 1 wt. % of dispersants per 100 wt. parts of said mixture of a polymeric carrier and a biologically active substance. This concentrate was used for the antimicrobial stabilization of the polypropylene in an amount such that the concentration of FeSO4 in the final material was 1% by weight. (i.e. 0.368 wt% iron). The resulting antimicrobial properties and conclusions of the migration tests carried out by the methods already described in Example 2 were the same as those given for Example 2.

Example 5

Under the same conditions as described in Example 4, a concentrate was prepared except that a zinc stearate dispersant (CAS 55705-1) in an amount of 10 wt. parts per 100 wt. parts of the mixture of the polymeric carrier and the biologically active substance, with the composition of the mixture of the active substance and the polymeric carrier unchanged. The resulting properties were comparable to those given for Example 4.

Example 6

A concentrate consisting of 62.5 wt. % of polymeric carrier based on vinyl polymer - plasticized polyvinyl chloride - PVC (CAS 9002-86-2) and 37.5 wt. ferrous sulphate - FeSO ₄ (CAS 7720-787), with the addition of magnesium stearate dispersants (CAS 557-04-0) in an amount of 25 wt. parts per 100 wt. parts of a mixture of a polymeric carrier and a biologically active substance. This concentrate was used for antimicrobial stabilization of PVC in such an amount that the concentration of FeSO ₄ in the final material was 0.5 wt%. (i.e., 0.184 wt% iron). The surface of the resulting system was tested according to ISO 22196 and exhibited antimicrobial activity against Staphylococcus aureus and Escherichia coli, which represents a reduction of bacterial settlement by 5 orders, a decrease in bacterial prevalence of 99.999% compared to unmodified PVC with the same processing history. The samples were also subjected to migration test in various simulants according to the standard ČSN EN 1186. The concentration of biologically active substance in all obtained and tested extracts was below 1.0 mg / dm ² .

Industrial applicability

The concentrate based on the inorganic biologically active substance according to the invention is useful for antimicrobial stabilization of various thermoplastic products - polyolefins, polyesters, vinyl polymers and copolymers. It can be used especially for products coming into direct long-term contact with the human body or food.

PROTECTION REQUIREMENTS

Claims (2)

A concentrate for antimicrobial stabilization of plastic surfaces formed on the basis of an inorganic biologically active substance, characterized in that it contains 50 to 80 wt. % of thermoplastic polymer carriers selected from the group consisting of polyolefins, polyesters, vinyl polymers and copolymers of these polymers, and 20 to 50 wt. % of a biologically active substance, which is ferrous sulphate, the concentrate is intended to be metered into the polymer mixture to a final active substance concentration of 0.2 to 1 wt. Concentrate for antimicrobial stabilization of plastic surfaces according to claim 1, characterized in that it contains an addition of 1 to 25 wt. parts of a dispersant based on a substance selected from the group consisting of low molecular weight polyethylene waxes, zinc stearate and magnesium stearate, wherein the addition of the dispersant is based on 100 wt. parts of a mixture of a polymeric carrier and a biologically active substance.