RU2086585C1 - Electroinsulating composition based on suspension polyvinyl chloride - Google Patents

Abstract

FIELD: insulation of conductors and cables and manufacture of sheets, films and hoses. SUBSTANCE: electroinsulating composition comprises dioctyl phthalate, metal containing stabilizer, dyphylol propane, stearic acid, chalk, pigments, and ammonium oxalate, titanium dioxide and N-butyl alcohol modified aerosil as filler. Composition is prepared by mixing some components at 18-22 C, the remaining components are further mixed at 80-100 C, the mixture is cooled and granulated. Suspension polyvinyl chloride-based composition has high thermal stability, reduced combustibility and has no stuck granules, pores and agglomerates. EFFECT: improved properties of the electric insulating composition.

Description

 The invention relates to filled polyvinyl chloride compositions, which can be used mainly for insulation of wires and cables, as well as in the production of sheets, films, hoses, etc.

 Expanding the assortment of electrical insulating compositions based on suspension polyvinyl chloride is caused by the need to replace electrical insulating compositions with insufficient thermal stability during processing, increased adhesion and flammability.

 Known compositions, for example, by A.S. NN 14385323, 1030387, 753868, 802326, 1700020, TU 6-01-2-608-81, containing suspension polyvinyl chloride (PCV) of the grades PCV-S-7058M, PCB-S-7059M, as a plasticizer-dialkyl phthalate (DAP-789 ), di- (2-ethylhexyl) phthalate (DOP), dibutyl phthalate (DBP), di (2-ethylhexyl) sebacinate (DOS), tetraoctylpyromellitate (TOPM), tricresyl phosphate (TKF), chlorine paraffin (CP-470), as - tribasic lead sulfate (TOCS), dibasic lead phthalate (DOPTS), calcium stearate (CTCa), diphenylolpropane (DFP), dibasic lead stearate (DOSS), a modified calcined filler aolin, antimony trioxide, aerosil and pigments.

 These compositions have insufficient thermal stability during processing, as well as increased adhesion of the granules and combustibility, the presence of pores and agglomerates, which leads to a deterioration of the processing conditions and the quality of the finished product.

The closest in technical essence and the achieved result is a polymer composition comprising dioctyl phthalate, metal stabilizer, filler, suspension polyvinyl chloride [1]
The objective of the invention is the creation of an insulating composition based on suspension PVC with high technological properties, high thermal stability during processing, low flammability and stability to adhesion, the absence of pores and agglomerates of the filler.

 This object is achieved in that the electrical insulating composition including suspension polyvinyl chloride, dioctyl phthalate as a plasticizer, tribasic lead sulfate, lead silica as a metal stabilizer, complex complex stabilizer SKSK-17, calcium stearate, diphenylol propane, stearic acid contains stearic acid ammonium, titanium dioxide with a mass fraction of silicon dioxide of 0.2-0.35% modified with aerosil H-butyl alcohol with the addition of alumina 0.5-3.0% m ate and pigments, in the following ratio of components, parts by weight

Suspension polyvinylchloridoride 100
Dioctyl phthalate 40-70
Metal-containing stabilizer 5.5-19.9
Diphenylolpropane 0.3-1.0
Stearic acid 0.5-1.0
Ammonium oxalate 1-15
Titanium dioxide with a mass fraction of silicon dioxide of 0.2-0.35% 0.5-1.5
Aerosil modified with H-butyl alcohol with the addition of alumina 0.5-3.0% 1-5
Chalk 5-40
Pigments 1-7
The new component ammonium oxalic acid 1-aqueous used as a filler is colorless crystals soluble in water, methyl and ethyl alcohols with a mass fraction of 1-aqueous ammonium oxalic acid (C ₂ H ₈ N ₂ O ₄ • H ₂ O) not less than 99, 5% produced in accordance with GOST 5712-78. Gives the composition low flammability compared to antimony oxide (lll). It is a non-toxic product. Its combination with titanium dioxide containing silicon dioxide 0.2-0.35% and modified aerosil H-butyl alcohol with the addition of aluminum oxide 0.5-3.0% gives the composition a packing density (no pores and agglomerates), low thermal adhesion, creates a glossy surface of the composition.

 The composition is prepared as follows.

First, at 18-22 ^o C mixed in the composition of oxalic ammonium, titanium dioxide, modified aerosil, chalk, pigments and stabilizers with part of the DOP and grind to a dispersion of 40-50 microns. Then the prepared mixture is mixed in a two-stage mixer at 80-100 ^o C with polyvinyl chloride resin, stearic acid and the remaining DOP. After which the mixture is cooled with stirring and granulated at a melt temperature of 120-175 ^o C.

 In the table. 1 shows examples of the component composition of electrical insulating compositions; in table 2 properties of the compositions in comparison with the prototype.

 Electrical insulating composition based on suspension polyvinyl chloride, as can be seen from the table. 2, has the following advantages compared with the prototype: higher thermal stability, reduced flammability. The proposed composition does not have sticky granules, pores and agglomerates.

Claims (1)

 An insulating composition based on suspension polyvinyl chloride, including dioctyl phthalate, a metal-containing stabilizer, a filler, characterized in that it further comprises diphenylol propane, stearic acid and pigments, and as a filler it contains oxalic ammonium, titanium dioxide with a mass fraction of silicon dioxide of 0.2 0.35 % modified n-butyl alcohol Aerosil with the addition of alumina 0.5 to 3.0% and chalk in the following ratio, wt.h. Suspension polyvinyl chloride 100
Dioctylphthalate 40 70
Metal stabilizer 5.5 19.9
Diphenylolpropane 0.3 1.0
Stearic acid 0.3 1.0
Pigments 1 7
Chalk 5 40
Ammonium oxalate 1 15
Titanium dioxide with a mass fraction of silicon dioxide 0.2 0.35% 0.5 1.5
Aerosil modified with n-butyl alcohol with the addition of alumina 0.5 3.0% 1 5t

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