DD156917A1 - THERMOPLASTIC COMPOSITION BASED ON AETHYLENE VINYL ACETATE COPOLYMERS - Google Patents

Abstract

The thermoplastic composition contains as components at least three thermoplastics having a polyolefin content of 20 to 30% by mass and at least 5% by mass of an organic or inorganic filler. A co-mediator system should be developed with increased efficiency and good filler uptake capacity for plastic waste mixtures. A compound based on several ethylene-vinyl acetate copolymers having different molecular weights, degrees of crosslinking and contents of vinyl acetate groups has proved to be suitable. The invention is applied to the economic plastic waste recycling.

Description

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VEB Leuna-Werke Merseburg, 06.03.1980

UV / old Ulbricht !! DO.Do/Mei.

LP 79118

Title of the invention

Thermoplastkonosition based on ethylene-vinyl acetate copolymers

Field of application of the invention

The invention relates to thermoplastic compositions containing as components at least three thermoplastics having a Polyölefinanteil of 20 to 50% by mass and at least 5 Ma. % of a fuel of organic or mineral nature.

Such thermoplastic components occur mainly in Plastabfallaufarbeitung, the Plastabfaelle can come from all conventional plastic processing and from the municipal areas »

Characteristic of the known technical solutions

Plastics mixtures of all kinds are becoming waste products in ever-increasing proportions »There are problems on a national and international scale in attempts to recycle these plastic waste mixtures to meaningful use

This is mainly due to the fact that plastic mixtures generally have inferior mechanical properties, such as tensile strength, elongation at break, modulus of elasticity, impact strength, than the pure polymers (J.Brandrup Kunststoffe Muenchen 65 (1975 12, D. PAUL, Polym. Engn _e Sei. (Manchester) 13 1973) .Processing by injection molding may provide sufficient values if the mixture is limited to two groups, one of which is present at 60 to 70% by weight » There are difficulties in processing due to inadequate homogenization, because a common melt temperature profile and homogenization of all the constituents involved is difficult to determine, which leads to insufficient homogenisation to a slate-like structure of the E products, whereby the individual material layers do not have a fixed bond among each other (E. Lolchen Kunststoffrundschau, Hamburg 21 (1974) 4). In the processing of plastic mixtures, starting from the plastic waste, aggravating added, that the composition of the mixtures is different and inconsistent and also subject to large variations in their composition and proportion "Overall, arise for plastic waste mixtures from the areas of manufacturing, processing, application and garbage the following problems:

- more or less indeterminate and fluctuating number of components

- More or less indefinite within wide limits fluctuating ratio of components to each other

- changing quality of the material due to its origin

- varying degrees of contamination with many different foreign substances

Despite the difficulties and troubles based on this heterogeneity, methods and devices have been developed for recycling mixed plastic wastes from industrial and municipal plastic waste. So it is known plastic waste mixtures through targeted additions

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in the picture of quality in order to arrive at higher-quality products. This can be achieved by adding fillers, high molecular weight additives or chemical crosslinkers. By adding high molecular weight additives, the properties of the plastic mixtures can be significantly improved. As such additives, once pure plastics, which are already mixed in each case, can function (D. Paul, Polym. Engn., A., See, Manchester 12 (1972) May 3). More effective and thus more economical is the addition of special macromolecular substances, which act as so-called comfort mediators and completely or at least partially eliminate the incorrrability of the components of plastic mixtures. It is thereby made possible a thermoplastic deformation with sufficient homogenization. The mediators should meet the following requirements

- Compatibility with all components

- High fuel uptake capacity

- Effect on a large concentration range to compensate for qualitative and quantitative fluctuations

- Efficacy in small quantities

- Low technological prerequisites for thermostability, melting behavior, mixability

- Influence of the mechanical level and the use value (Inf. Scientific Techn. AdM., DDR C11 (1978); Chem. Techn. 27 (І975); Plastic and Rubber 21 (1974) 8).

The disclosed co-mediators are chlorinated polyethylene (E. Loichen Kunststoff Rundschau 21 (1974) 4, B. Baum SP-J., Manchester 29 (1973) 5, DR Paul, Polym. Engn., A., 13 (1973). , G. Zerlant-j Science Publishens 1974 (175)) and ethylene-vinyl acetate copolymers. Ethylene-vinyl acetate copolymers are known to have vinyl acetate contents of from 3 to 95% by weight and melt indexes of from 1 to 400 g / 10 min at 463 K for molding compositions based on hydrocarbon resins, polyesters, elastomers (DE-OS 1913683). used. From a Plastabfallgemisch with 20 wt.% Polyvinyl chloride, to 5 % polystyrene, 40 to 45 % Polyaethlyen (high and low density) is assumed in DD-PS107941,

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whereby the total polyolefin content increases to 60 to 80% by weight, which, owing to the relatively high costs of the ethylene-vinyl acetate copolymers as a compatibilizer, must lead to products with higher costs. The preparation of a construction material based on plastic waste mixtures of composition 10 to 15 wt.% Polyaethylene (high and low density), 10 to 15 wt.% Polystyrenes, 20 to 30 wt.% Thermoplastics of any kind is described in DD-PSII6O5I, whereby a high compatibility by a Fuellstoffgehalt over 50 % and low density polyethylene and optionally further Thermoplastzп good fluidity, such as polyamides and polystyrenes to be achieved *

Object of the invention

The aim of the invention is the economic utilization of plastic waste mixtures.

Explanation of the essence of the invention

The object of the invention is to develop a compatibility mediator system for plastic waste mixtures which, when added in low concentrations, enables a good homogeneity of the plastic waste components and a good fuel uptake capacity of inorganic fillers, whereby a good processability of the plastic waste or plastic waste mixture is to be achieved. This object is achieved by a thermoplastic composition based on ethylene-vinyl acetate copolymer, which contains as components at least three thermoplastic materials having a polyolefin content of 20 to 50% by mass and at least 5% by mass of an organic or mineral filler, v / obei the invention thermoplastic composition 5 to 19 Ma. % Ethylene-vinyl acetate copolymer blend having a composition A: 65 to 85 Ka. % Of ethylene-vinyl acetate copolymer with a

Molecular weight 18,000 to 22,000, vinyl acetate content 10 to 18% by weight, melt index 0.5 to 10 g / 10 min

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В: 7 to 20 Ш.,% Ethylene vinyl acetate copolymer with a

Molecular weight 19,000 to 25,000, vinyl acetate content 25 to 35% by weight, melt index 1 to 70 g / 10 min С: 6 to 15 Ma. % Ethylene-vinyl acetate copolymer with a

Molecular weight 1500 to 10,000, vinyl acetate content 5 to 15 wt.%, Melt viscosity 0.8 to 10 Pa.s contains.

In contrast to known co-mediators, the ethylene-vinyl acetate copolymer compound consists of three components, one of which can be varied in the range of 65 to 85% and constitutes the basic component. The proportion of components B and C depends on the composition of the plastic waste mixtures, which may have the following compositions:

- Polyolefins: low-density polyethylene, high-density polyethylene Polypropylene (I)

- Polyolefine derivatives: polystyrene, polyvinyl chloride (II)

- other thermoplastics: polyamide, polyacrylic acid esters, acrylonitrile-butadiene-styrene copolymers (III)

- Thermosets and reinforced thermoplastics (IV)

The thermoplastic composition according to the invention is obtained in known manner by homogenizing the melt mixture in homogenizing means and constitutes a quasi-homogenous material which is a solid at room temperature, the character and properties of which are determined by the thermoplastic components, filler components and the choice of composition of the above mentioned. Ethylene-vinyl acetate copolymer compounds. The content of polyolefins (I) in the plastic waste mixture determines the total addition amount of the ethylene-vinyl acetate copolymer compound as a co-impurity in the range of 5 to 19 Ma.%, Ie that at a polyolefin content (I) of 50 Ma.% Of ethylene-vinyl acetate Copolymer compound content may be about 5 Ma.% And when the total polyolefin content in the plastic waste decreases to 20 Ma.%, The ethylene-vinyl acetate copolymer compound content may increase to 19 Ma.%.

The ratio of the components within the compound as a co-mediator depends on the melting behavior of the thermoplastic components (I, II, III) and on the proportion of polyolefin derivatives (II) in the plastic waste mixture to be homogenized, that is to say that the proportion of component A depends on the achievement of a specific melt index in the Hurtraeglich !! Plast precipitated and the content of Poly olefinde ri vat en (II) or their relationship to each other, in the range fully 65 to 85 Ma. % are variable. The proportion of component B is influenced by the content of thermosets and other reinforced thermoplastics (IV), which function in the thermoplastic composition like organic fillers. With an increasing content of component B in the range of 7 to 20 Ma. %, that is, with increasing content of vinyl acetate ginppen the Puellstoffaufnahmeverraoegen on organic, and if necessary also on mineral fillers, up to 20 Ma. % be increased. The proportion of the component C depends on the type and proportion of other thermoplastic constituents (III) such as polyamides, acrylonitrile-butadiene-styrene copolymers, polyacrylic acid esters, hard polyvinyl chloride. Sr can be varied in the range of 6 to 15% by mass and tailored to specific temperature-sensitive plastic parts. This occurs especially when the Plastabfallgemisch consists of a number of thermoplastics strongly different melting ranges and when heating and producing a homogeneous thermoplastic composition there is a risk of decomposition of plastic components. In a favorable development of the homogenized thermoplastic composition, the ethylene-vinyl acetate component C partially penetrates into the pores of the higher-melting plastic and Puellstofft particles due to their good melting behavior. Due to the similar chemical structure of the compound, in this way a greater compatibility of the organic and inorganic fillers with the thermoplastic components is achieved and the fuel uptake rate of the composition is increased. Due to the mehrfunktioneile effect of the ethylene-vinyl acetate copolymers Kohaesivkraefte all components of the thermoplastic composition are enlarged and

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Material properties such as mechanical strength, resistance to environmental influences and moisture igkeitaufnähme significantly improved. In addition, the ethylene-vinyl acetate copolymer compound permits operation at temperatures such that elimination of chlorine chloride from polyvinyl chloride does not occur.

The novel thermoplastic resin composition can be modified by suitable additives, for example by crosslinkers and / or fillers, auxiliaries or additives, such that it has a higher heat stability. More advantageous properties (mechanical) can be achieved by incorporation of suitable reinforcing materials such as glass, metal fibers or mats, non-wovens or other suitable materials for the thermoplastic composition according to the invention, in order thus to meet more specific fields of application.

Ausfuehrungsbeispiele

The following test methods and characteristic values are used.

Characteristic unit of measurement TGL

Density g / cm ³ 14075

Vinyl acetate content Ma-% 8418 / B1.7

Melt index i _? at g / 10min 20996 463 K and 21, .2N

Melt viscosity Pa.s 0-51562

Impact resistance mJ / mm 14068

Notched impact strength mJ / mm 14068

Tensile strength N / mm ² 14910

Elongation % 14070

Bending stress N / mm 14067

Softening point K 17274 according to Viсat

Shrinkage % 22239

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In the tables the following abbreviations are used: MW = molecular weight, VacVinyl acetate content, ip = melt index at 463 K and 21.2Ж, ϊ ^ melt viscosity.

example 1

Thermoplastic composition based on a Plastabfallgemisches

the following composition:

Polyolefins 48 Ma% Polyolefine Derivatives 36 Ma% Thermoplastics 5 Ma%

Thermosets 1 Ш%

Cretaceous chalk 5 Ma% (over 97,8 % CaGO ₃ ; moisture below

0.03 %, density 2.525 g / cm ³ , mass 0.546 g / cm, average grain diameter 2.40 / im)

and a selected ethylene-vinyl acetate copolymer compound

Component A: 85 Ыа% (MW = 22,000, Vac = 10 Ma% _t = O JU, 5) Component B: 8% by mass (Mw = 23500, Vac = 26% by mass, i ₂ = 1.0) Component C: 7 % by mass (MW = 7500, Vac = 5.5 % by mass , η, = 8.5) The plastics present in comminuted or powder form are placed in a mixer and intensively mixed at 4 ° C. with the copolymer compound. The mixture thus prepared is melted in a twin-screw extruder, homogenized and processed into granules. The granules had a bulk density of 0.58 g / cm, a bulk density of 1.005 g / cm and a melt index i _? of 4 g / 10 min. Pruss bodies injected from these have the following mechanical characteristics:

Impact resistance Impact resistance Tensile strength

strain

Limit bending stress E n g e s t e m ρ e r at ur after Vi с al Schwin du n ·

not broken broken 120 N / mm ² 160

92 IT / mm 365K

^C 1.1,

 о

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The granules could be processed without difficulty into profiles and plates of sufficient quality on the extruder.

Examples 2 to 4

Thermoplastic compositions based on the compositions shown in the table.

Table 1

_Composition

polyolefins 38 30 21 polyolefin derivatives 33 31.5 30 thermoplastics 6.5 8th 10 thermosets 2.0 6 6 Schlaernmkreide 1 10.0 10.0 14 Copolymers ompound 10.5 14.5 19

A 80 70 65 B 10 15 20 C 10 15 15

Table 2

Composition of the copolymer compound

example A Vac ^І 2 В MG Vac ^І 2 С , 5400 Vac п. 5 [Pa.S] , MG [Ma%] [G / i0min] [Ып] HG 3500 л] [M о О ¹ 1 О. / 0 J 2 3 No. [Mn] 15 2 22000 28 I [g / 10min] [M 1800 8th 5 0 ,1 21500 18. б 19500 31 25 12 ,8th 2 19000 18 10 18000 34 17 14 3 18500 68 4

~ 10 -

2A 4

The processing is carried out according to example 1. The test bodies molded therefrom have the following characteristic values shown in the table.

Table 3 2 3 4 characteristics not ge not ge not ge impact broken broken broken strength indicating roche η not ge not ge Impact broken broken strength 9.8 9.6 9.3 tensile strenght 190 220 240 strain 8.6 7.1 5.5 bending limit tension 358 354 351 Vicat temperature 6 3 4 Melt index i_ ei. 1.02 1.03 1.08 density 1 »5 1.7 2.0 shrinkage

Claims (1)

- "- 221669 invention claim Thermoplastic composition based on ethylene-vinyl acetate at copolymers ^, which as components at least three thermoplastic materials having a polyolefin content of 20 to 50 Ma. % and at least 5 Ma. % of an organic or mineral Fueilstoffs, characterized in that the thermoplastic composition 5 to 19 Ma. % Ethylene-vinyl acetate copolymer compound having a composition A: 65 to 85 Ma. % Ethylene-vinyl acetate copolymers 3 with a Molecular weight 18,000 to 22,000, vinyl acetate content 10 to 18% by mass, melt index 0.5 to 10 g / 10 min B: 7 to 20 Ma. % Ethylene-vinyl acetate copolymer at Molecular weight 19,000 to 25,000, vinyl acetate content 25 to 35% by mass, melt index 1 to 70 g / 10 min
C: 6 to 15% by mass of ethylene-vinyl acetate copolymer with a Molecular weight 1500 to 10000, vinyl acetate content 5 to 15 Ma. % _t melt viscosity 0.8 to 10 Pa.s
contains.