DE3813200A1 - Thermoplastically processable plastic mixture - Google Patents

Abstract

A thermoplastically processable (thermoplastic) plastic mixture based on modified polyethylene for electrical cables and wires comprises a polyethylene having a density of less than 0.91 g/cm<3> (VLDPE) and fillers in relatively large amount.

Description

The present invention relates to a thermoplastic Processible plastic mixture on the base modified polyethylene alone or in admixture with other polymers for electrical cables and wires.

The ever-growing desire to find additional uses for plastics in engineering often makes it necessary to adapt existing materials to the new requirements. This is usually done by the development of new mixtures by z. B. the base material mixture components are added, which change its characteristics in the direction of the newly asked requirements. However, certain plastics, such as homopolymeric polyethylene, are less suitable as base materials for plastic blends because they, when loaded with fillers, become brittle and easily break. Electrical cables and lines z. B., which must be flexible or at least bendable due to their use, therefore can not be made from such mixtures. In practice, therefore, copolymers containing as comonomer a vinyl acetate, a vinyl acrylate and the like, or mixtures of polymerized α- olefins alone are used as base materials for fillers containing mixtures and in particular for so-called. Highly filled mixtures. Often, however, even such mixtures are not sufficient for certain requirements. Disadvantageous z. B. in based on previously customary mixtures of polymerized α- olefins of atactic polybutene (eg Vestoplast) prepared filling mixtures of electrical cables is their sensitivity to cold. This causes the extruded material can be hard and stiff at lower temperatures and possibly breaks, so that due to the bonding of the filling mixture (inner jacket) with the outer jacket of the cable jacket errors can occur.

Based on this prior art is the Invention therefore based on the object in wide Borders find fillable polymer blends that are at Consistent quality of the final product the respective Requirements can be optimally adapted.

This object is achieved according to the invention in that the modified polyethylene has a density below 0.91 g / cm ³ and fillers are added in larger quantities. Such a modified polyethylene, also often referred to as VLDPE (very low density polyethylene), is not structurally comparable to the conventional polyethylene (LDPE or HDPE), but is structurally similar to the so-called LLDPE, ie a linear polyethylene, with the inherently contradictory properties, namely linear molecular structure and low density.

Meet blends made on the basis of VLDPE the demands made in full. In particular it is in the selected according to the invention base material possible, even highly filled, non-adhesive filling mixtures produce, which also reduced Have sensitivity to cold.  

In continuation of the invention, conductive fillers, preferably carbon black, may be added in an amount of 10-100 parts, preferably 15-80 parts to 100 parts of the selected polyethylene. This over known mixtures of high carbon black let the VLDPE used according to the invention - to polymers without degradation of the processing performance. In practice, this means an extension of the property image of such mixtures z. As for conductive filler mixtures in cables or cables with monitoring systems. Suitable carbon blacks which are particularly suitable for the invention are in this case acetylene black Y , Denkablack, Ketjen Black EC or else normal conductive blacks, such as Corax L , Phillips P , volcano XC72 and others.

The possibility of high fillability is also advantageous for non-conductive fillers. For the proposed according to the invention polyethylene having a density below 0.91 g / cm ³ fillers are provided in an amount of 100-2000 parts, preferably 200-1200 parts, per 100 parts of polymer. Such fillers, such as chalk, lead to a general upgrade of about Kabelumhüllungen stranded substructures for rounding. The mentioned bonding between such a so-called inner jacket produced on the basis of the invention and the core or jacket insulation can be avoided.

Depending on the use of the mixture according to the invention it can be appropriate, this blend components admix. Is it z. B. therefore, a heavy combustibility To ensure so, suitable additives, such as Alumina hydrate, magnesium hydroxide or too Zinc borate, possibly in combination with antimony trioxide, Phosphates or other heavy combustibility additives be used. In this case, the halogen-free is not decisive, halogen-containing additives,  as the chlorinated paraffin or bromine compounds, optionally in Combination with antimony trioxide or similar, synergetic acting additives as advantageous proved.

But also polymer blending components can for Adaptation to special requirements during the Use of products made thereof one find advantageous application. So can these Blend components based on styrene-butadiene Rubber, but also based on additives Ethylene vinyl acetate copolymer, chlorinated polyethylene or atactic polypropylene and halogenated and / or non-halogenated butyl rubbers may be used in Continuation of the invention can be used. Similarly, sometimes as blending components a neoprene, isoprene, butadiene or ethylene-propylene Rubber alone or in combination appropriate used.

The following mixing examples IV show the wide range of use proposed by the invention polyethylenes having a density below 0.91 g / cm ³ as a base material.

Example I parts VLDPE (very low density PE) 50 SBR (styrene butadiene rubber) 50 chalk 600 Plasticizers and processing aids 50 Anti Aging Agent (ASM) to 1.0

Field of use:
Rounding of multi-core cables and lines

Example II parts VLDPE 100 chalk 700 Plasticizers and processing aids 50 Anti-aging agent up to 1.0

Field of use:
Rounding of multi-core cables and lines

Example III parts VLDPE 50 SBR (styrene butadiene rubber) 50 Filler (alumina hydrate) 200 chalk 300 Plasticizers and processing aids 50 Anti-aging agent up to 1.0

Field of use:
Heavily combustible cables and cables, halogen-free

Example IV parts VLDPE 50 ethylene vinyl acetate copolymer 50 chalk 200 Ketjenblack EC (soot) 18 Plasticizers and processing aids 50 Anti-aging agent (quinoline derivative) 0.8

Field of use:
conductive filling mixture

Example V parts VLDPE 50 atactic polyolefin (Vestoplast) 50 filler 300 processing aids 25 Anti-aging agents 1.0

Application areas:
non-contaminating, plasticiser-free filling mixture.

Claims (14)

1. Thermoplastically processable plastic mixture based on modified polyethylene alone or in admixture with other polymers for electrical cables and lines characterized in that the modified polyethylene has a density below 0.91 g / cm ³ and fillers are added in larger quantities. 2. Mixture according to claim 1, characterized by bright fillers in an amount of 100-2000 parts, preferably 200-1200 parts, based on 100 parts of base material. 3. Mixture according to claim 1 or 2, characterized characterized in that conductive fillers, preferably carbon black, in an amount of 10-100 Parts, preferably 15-80 parts, based on 100 parts of base material are added. 4. Mixture according to claim 1 or one of the following, characterized in that it is difficult to burn containing additives.   5. Mixture according to claim 4, characterized that as a heavy combustible additive Alumina hydrate is used. 6. Mixture according to claim 4 or 5, characterized characterized in that as hard flammable making Addition of magnesium hydroxide is used. 7. Mixture according to claim 4 or one of the following, characterized in that as hard flammable adding zinc borate, if necessary in combination with Antimony trioxide, phosphates or others Schwerbrennbarkeits additives is used. 8. Mixture according to claim 4 or one of the following, characterized in that halogen-containing Additives, such as chlorinated paraffin or bromine compounds, optionally in combination with antimony trioxide or similar, synergistic-acting additives be used. 9. Mixture according to claim 1 or one of the following, characterized in that as Polymer Blend Component Styrene-butadiene Rubber is used. 10. Mixture according to claim 1 or one of the following, characterized in that as Blend component ethylene vinyl acetate copolymers be used. 11. Mixture according to claim 1 or one of the following, characterized in that as Blend component chlorinated polyethylene is used.   12. Mixture according to claim 1 or one of the following, characterized in that as Blend component atactic polypropylene (Vestoplast) is used. 13. Mixture according to claim 1 or one of the following, characterized in that as Blend component halogenated and / or not halogenated butyl rubber is used. 14. Mixture according to claim 1 or one of the following, characterized in that as Blending component a neoprene, isoprene, Butadiene or ethylene-propylene rubber alone or used in combination.