SU722215A1 - Suspension for antiadhesion treatment of ethylene-vinyl-acetate copolymer granules - Google Patents

Description

one

The invention relates to suspensions used to reduce the adhesion of granules to copolymer of ethylene with vinyl acetate by creating an insulating layer of mineral fine powder.

It is known to use a fine mineral powder (for example talc) for the anti-adhesive treatment of polymers. The powder is applied to the polymer beads by powdering TI.

However, the dusting of polymer granules with minerals / 1 and fine powders is inefficient, the working conditions i are deteriorated, and an uneven layer of the insulating material is often observed on the polymer.

1 Water-based mineral suspensions are also known: fine powders such as talc, clay, titanium oxide, zinc oxide, etc. for treating ethylene-vinyl acetate copolymers 2.

The use of such aqueous suspensions also has disadvantages, which consist in a high sedimentation rate of the suspension, which leads to the need for intensive mixing.

during processing, and to obtain an effective insulating layer that prevents adhesion, it is necessary to use suspensions of elevated concentrations (up to 35 wt.%).

The closest among those known is a suspension for anti-adhesive processing of granules of polymeric materials containing mineral

0 fine powder, surfactant OP-7, sodium dodecyl sulfate C However, these surfactants are effective for suspensions with a concentration of mineral powder above 0.5% when the suspensions are aggregatively unstable.

The aim of the invention is to increase the stability of the suspension,

- This goal is achieved by the fact that the suspension for the anti-adhesion treatment of ethylene-vinyl acetate copolymer granules, including a surfactant, water, and fine mineral powder, contains an alkali metal stearate as a surfactant in the following ratio of components, parts by weight :

Water100

Mineral fine powder 0, 01-0.5 Alkali metal stearate 0.01-3 Talc, chalk, kaolin, etc., preferably talc, may be used as the mineral fine powder. As the alkali metal salt and stearic acid, sodium stearate, potassium stearate, etc. can be used.

The invention is illustrated by the following examples, including the controls. The test results of the suspensions and the properties of the copolymer granules processed by them are given in the table.

Example 1 (control). Research Wire Ag on a copolymer of ethylene with vinyl acetate with a vinyl acetate content of 43.1 wt.% With a melt index at 190 s 2.2 g / 10 min and a granule diameter of 3–4 mm.

Talc suspension is prepared at room temperature using distilled water. With vigorous stirring of two liters of water, 10 g of talc are injected into it. After 5 minutes of stirring, stop the suspension and determine the sedimentation rate of the suspension by weighing the settling suspension particles on a torsion balance with a cup with a diameter of 2 cm at a height of the suspension column 28 cm. crooked.

The processing of ethylene-vinyl acetate copolymer granules is carried out as follows. With stirring, 140 g of the copolymer granules are introduced into the suspension. After 30 seconds, the granules are separated from the suspension and dried for 24 hours at room temperature in the open air. The difference in the weight of the copolymer granules before processing and after drying determines the amount of insulating matter on the granules.

Example 2. To two liters of distilled water was added 10 g of potassium stearate. While stirring, the water is heated until the potassium stearate dissolves completely, after which the solution is cooled to room temperature. Sodium potassium stearate suspension was added to S0..r talc.

The processing of the copolymer granules, the determination of the sedimentation rate of talc and the amount of insulating material on the granules, as well as the analysis of the stickiness of the treated granules were carried out as in Example 1. Examples 3, 7, 12 (control) The experiments were carried out under conditions analogous to example 2, but sodium dodecyl sulfate and a mixture of compounds of the general formula I-SbH4-0 - (). - CH2CH20H (OP-7) are used to stabilize the suspension.

Examples 5, 10 (control). The experiments were carried out under conditions analogous to example 1, but the concentration of the center and the nature of the dispersed mineral powder was changed.

Examples 4, 6, 8, 9, 11. The experiments were carried out under conditions similar to example 2, but the concentration of the suspension and composition were changed.

The results obtained on the sedimentation rates of the suspensions and the properties of the granules of the ethylene – vinyl acetate copolymer treated by them are summarized in the table.

As can be seen from the data in the table, the introduction of alkali metal salts and stearic acid dramatically reduces the sedimentation rate of mineral powders. Mineral powder suspensions in which alkali metal stearates are introduced are much more effective for treating ethylene – vinyl acetate copolymer granules compared to processing only a suspension of mineral powder with a practically equal amount of insulating material on the granules.

As can be seen from the table (example 12), settle down with a talcum content of 0.3 parts by weight. and 0.3 weight.h. OP-7 is already unstable. Therefore, the control experiments are: you are with OP-7 with the content of mineral dispersed powder 0, JD1 in it. h. not conducted.

In the control examples 3, 7, 12

used surface-active

substances that are widely used

in industry and are considered highly efficient mn.

Pilot testing is required to bring the invention to industrial use.

Claims (1)

SUMMARY OF THE INVENTION A suspension for anti-adhesive treatment of ethylene-vinyl acetate copolymer granules containing a mineral finely divided powder, a surfactant and water, which contains, in order to increase the stability of the suspension, it contains alkali metal stearate as a surfactant at the following ratio of components, Water weight.h: 100 Mineral Fine Powder Alkali Metal Stearate VNIIIPI 0.01-0.5 0.01-3 Order 5801/42