CN105504417A - Environment-friendly abrasion-resistant cable sheath material and method for preparing same - Google Patents

Abstract

The invention discloses an environment-friendly abrasion-resistant cable sheath material. The environment-friendly abrasion-resistant cable sheath material comprises, by weight, 40-60 parts of chloroprene rubber, 30-50 parts of ethylene-propylene-diene-monomer rubber, 5-10 parts of magnesium hydroxide, 10-15 parts of triethyl citrate, 8-12 parts of polysulfone resin, 12-16 parts of polyimide resin, 3-8 parts of zinc isocaprylic acid, 5-9 parts of calcium cyclamate, 2-6 parts of strontium thioglycollic acid, 5-10 parts of 1, 3:2, 4-di-p-methylbenyliedene sorbitol, 2-8 parts of microcrystalline celluloses and 1-6 parts of sulfur concentrate powder. The environment-friendly abrasion-resistant cable sheath material has the advantages of environmental friendliness and excellent abrasion-resistant performance.

Description

A kind of Environment-friendlywear-resistant wear-resistant cable sheath material and preparation method thereof

Technical field

The invention belongs to cable sheath material field, be specifically related to a kind of Environment-friendlywear-resistant wear-resistant cable sheath material and preparation method thereof.

Background technology

The cable of at least two stranded similar ropes normally often organized by cable by several or several groups of wires, often organize mutually insulated between wire, and be often twisted into round a center, whole outside is surrounded by the restrictive coating of high-insulation.Cable sheath is integral part important in cable, inner conductor and the medium such as water, air is completely cut off, avoids occurring leaky, protect cable with this.Nowadays beautify town and country living environment to optimize further, power cable transmission line progressively imbeds underground, therefore needs the good cable sheath material of wear resistance.And in existing cable sheath material, be still improved space in wear resisting property, and due to long-term in underground, environmental-protecting performance also has requirement.

Summary of the invention

For the above technical problem existed in prior art, the invention provides a kind of Environment-friendlywear-resistant wear-resistant cable sheath material and preparation method thereof, the not only environmental protection but also show excellent wear resisting property of this cable sheath material.

Technical scheme: a kind of Environment-friendlywear-resistant wear-resistant cable sheath material, comprises the composition of following parts by weight: chloroprene rubber 40-60 part, terpolymer EP rubber 30-50 part, magnesium hydroxide 5-10 part, triethyl citrate 10-15 part, polysulfone resin 8-12 part, polyimide resin 12-16 part, isocaprylic acid zinc 3-8 part, calcium cyclamate 5-9 part, thioglycolic acid strontium 2-6 part, to dimethyldibenzylidenesorbitol 5-10 part, Microcrystalline Cellulose 2-8 part, fined sulphur ore powder 1-6 part.

Further, described chloroprene rubber 45-55 part, terpolymer EP rubber 35-40 part, magnesium hydroxide 6-9 part, triethyl citrate 12-14 part, polysulfone resin 9-12 part, polyimide resin 13-15 part, isocaprylic acid zinc 5-7 part, calcium cyclamate 6-9 part, thioglycolic acid strontium 3-5 part, to dimethyldibenzylidenesorbitol 6-8 part, Microcrystalline Cellulose 3-7 part, fined sulphur ore powder 2-5 part.

Further, described chloroprene rubber 50 parts, terpolymer EP rubber 38 parts, magnesium hydroxide 8 parts, triethyl citrate 13 parts, polysulfone resin 10 parts, polyimide resin 14 parts, 6 parts, isocaprylic acid zinc, calcium cyclamate 8 parts, 4 parts, thioglycolic acid strontium, to dimethyldibenzylidenesorbitol 7 parts, Microcrystalline Cellulose 5 parts, fined sulphur ore powder 4 parts.

A preparation method for Environment-friendlywear-resistant wear-resistant cable sheath material, comprises the steps:

S1: chloroprene rubber 40-60 part, polyimide resin 12-16 part and triethyl citrate 10-15 part are added in reactor, 5-10min is reacted at temperature 40-50 DEG C, add isocaprylic acid zinc 3-8 part subsequently and to dimethyldibenzylidenesorbitol 5-10 part, stir 10-20min with speed 300-400r/min;

S2: terpolymer EP rubber 30-50 part, magnesium hydroxide 5-10 part, polysulfone resin 8-12 part and the mixing of calcium cyclamate 5-9 part are added in reactor, react 8-15min at temperature 70-90 DEG C;

S3: gained liquid, thioglycolic acid strontium 2-6 part, Microcrystalline Cellulose 2-8 part and fined sulphur ore powder 1-6 part in gained liquid, step S1 in step S2 are added Banbury mixer, and mixing 3-8min at temperature is 55-65 DEG C, discharging cools and obtain described cable jacket material.

Further, temperature described in step S1 is 45 DEG C, reaction 8min; Speed is 350r/min, stirs 18min.

Further, temperature described in step S2 is 80 DEG C, reaction 12min.

Further, temperature described in step S3 is 60 DEG C, mixing 6min.

beneficial effect:the preparation method of a kind of Environment-friendlywear-resistant wear-resistant cable sheath material of the present invention, with chloroprene rubber and terpolymer EP rubber for main raw material, by add polysulfone resin, polyimide resin, isocaprylic acid zinc, calcium cyclamate, thioglycolic acid strontium, to dimethyldibenzylidenesorbitol, Microcrystalline Cellulose and fined sulphur ore powder material, make the cable sheath material environmental friendliness prepared, to peripheral ground environmental nonpollution, possesses again excellent wear resisting property simultaneously.Preparation process of the present invention is simple, easily large-scale promotion.

Embodiment

Embodiment 1

S1: chloroprene rubber 40 parts, polyimide resin 12 parts and triethyl citrate 10 parts are added in reactor, 5min is reacted at temperature 40 DEG C, add 3 parts, isocaprylic acid zinc subsequently and to dimethyldibenzylidenesorbitol 5 parts, stir 10min with speed 300r/min;

S2: terpolymer EP rubber 30 parts, magnesium hydroxide 5 parts, polysulfone resin 8 parts and calcium cyclamate 5 parts of mixing are added in reactor, react 8min under temperature 70 C;

S3: gained liquid, 2 parts, thioglycolic acid strontium, Microcrystalline Cellulose 2 parts and fined sulphur ore powder 1 part in gained liquid, step S1 in step S2 are added Banbury mixer, and mixing 3min at temperature is 55 DEG C, discharging cools and obtain described cable jacket material.

Comparative example 1

S1: chloroprene rubber 40 parts and triethyl citrate 10 parts are added in reactor, react 5min at temperature 40 DEG C;

S2: terpolymer EP rubber 30 parts and magnesium hydroxide 5 parts of mixing are added in reactor, react 8min under temperature 70 C;

S3: gained liquid in gained liquid in step S2 and step S1 is added Banbury mixer, and mixing 3min at temperature is 55 DEG C, discharging cools and obtain described cable jacket material.

Embodiment 2

S1: chloroprene rubber 60 parts, polyimide resin 16 parts and triethyl citrate 15 parts are added in reactor, 10min is reacted under temperature 50 C, add 8 parts, isocaprylic acid zinc subsequently and to dimethyldibenzylidenesorbitol 10 parts, stir 20min with speed 400r/min;

S2: terpolymer EP rubber 50 parts, magnesium hydroxide 10 parts, polysulfone resin 12 parts and calcium cyclamate 9 parts of mixing are added in reactor, react 15min at temperature 90 DEG C;

S3: gained liquid, 6 parts, thioglycolic acid strontium, Microcrystalline Cellulose 8 parts and fined sulphur ore powder 6 parts in gained liquid, step S1 in step S2 are added Banbury mixer, and mixing 8min at temperature is 65 DEG C, discharging cools and obtain described cable jacket material.

Comparative example 2

S1: chloroprene rubber 60 parts and triethyl citrate 15 parts are added in reactor, react 10min under temperature 50 C;

S2: terpolymer EP rubber 50 parts and magnesium hydroxide 10 parts of mixing are added in reactor, react 15min at temperature 90 DEG C;

S3: gained liquid in gained liquid in step S2 and step S1 is added Banbury mixer, and mixing 8min at temperature is 65 DEG C, discharging cools and obtain described cable jacket material.

Embodiment 3

S1: chloroprene rubber 45 parts, polyimide resin 13 parts and triethyl citrate 12 parts are added in reactor, 5min is reacted at temperature 40 DEG C, add 3 parts, isocaprylic acid zinc subsequently and to dimethyldibenzylidenesorbitol 5 parts, stir 10min with speed 300r/min;

S2: terpolymer EP rubber 35 parts, magnesium hydroxide 6 parts, polysulfone resin 9 parts and calcium cyclamate 6 parts of mixing are added in reactor, react 8min under temperature 70 C;

S3: gained liquid, 3 parts, thioglycolic acid strontium, Microcrystalline Cellulose 3 parts and fined sulphur ore powder 2 parts in gained liquid, step S1 in step S2 are added Banbury mixer, and mixing 3min at temperature is 55 DEG C, discharging cools and obtain described cable jacket material.

Embodiment 4

S1: chloroprene rubber 55 parts, polyimide resin 15 parts and triethyl citrate 14 parts are added in reactor, 10min is reacted under temperature 50 C, add 7 parts, isocaprylic acid zinc subsequently and to dimethyldibenzylidenesorbitol 8 parts, stir 20min with speed 400r/min;

S2: terpolymer EP rubber 40 parts, magnesium hydroxide 9 parts, polysulfone resin 12 parts and calcium cyclamate 9 parts of mixing are added in reactor, react 15min at temperature 90 DEG C;

S3: gained liquid, 5 parts, thioglycolic acid strontium, Microcrystalline Cellulose 7 parts and fined sulphur ore powder 5 parts in gained liquid, step S1 in step S2 are added Banbury mixer, and mixing 8min at temperature is 65 DEG C, discharging cools and obtain described cable jacket material.

Embodiment 5

S1: chloroprene rubber 50 parts, polyimide resin 14 parts and triethyl citrate 13 parts are added in reactor, 8min is reacted under temperature 45 C, add 6 parts, isocaprylic acid zinc subsequently and to dimethyldibenzylidenesorbitol 7 parts, stir 18min with speed 350r/min;

S2: terpolymer EP rubber 38 parts, magnesium hydroxide 8 parts, polysulfone resin 10 parts and calcium cyclamate 8 parts of mixing are added in reactor, react 12min at temperature 80 DEG C;

S3: gained liquid, 4 parts, thioglycolic acid strontium, Microcrystalline Cellulose 5 parts and fined sulphur ore powder 4 parts in gained liquid, step S1 in step S2 are added Banbury mixer, and mixing 6min at temperature is 60 DEG C, discharging cools and obtain described cable jacket material.

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Claims (7)

1. an Environment-friendlywear-resistant wear-resistant cable sheath material, it is characterized in that, comprise the composition of following parts by weight: chloroprene rubber 40-60 part, terpolymer EP rubber 30-50 part, magnesium hydroxide 5-10 part, triethyl citrate 10-15 part, polysulfone resin 8-12 part, polyimide resin 12-16 part, isocaprylic acid zinc 3-8 part, calcium cyclamate 5-9 part, thioglycolic acid strontium 2-6 part, to dimethyldibenzylidenesorbitol 5-10 part, Microcrystalline Cellulose 2-8 part, fined sulphur ore powder 1-6 part.

2. a kind of Environment-friendlywear-resistant wear-resistant cable sheath material according to claim 1, it is characterized in that, described chloroprene rubber 45-55 part, terpolymer EP rubber 35-40 part, magnesium hydroxide 6-9 part, triethyl citrate 12-14 part, polysulfone resin 9-12 part, polyimide resin 13-15 part, isocaprylic acid zinc 5-7 part, calcium cyclamate 6-9 part, thioglycolic acid strontium 3-5 part, to dimethyldibenzylidenesorbitol 6-8 part, Microcrystalline Cellulose 3-7 part, fined sulphur ore powder 2-5 part.

3. a kind of Environment-friendlywear-resistant wear-resistant cable sheath material according to claim 2, it is characterized in that, described chloroprene rubber 50 parts, terpolymer EP rubber 38 parts, magnesium hydroxide 8 parts, triethyl citrate 13 parts, polysulfone resin 10 parts, polyimide resin 14 parts, 6 parts, isocaprylic acid zinc, calcium cyclamate 8 parts, 4 parts, thioglycolic acid strontium, to dimethyldibenzylidenesorbitol 7 parts, Microcrystalline Cellulose 5 parts, fined sulphur ore powder 4 parts.

4. a preparation method for Environment-friendlywear-resistant wear-resistant cable sheath material, is characterized in that, comprises the steps:

S1: chloroprene rubber 40-60 part, polyimide resin 12-16 part and triethyl citrate 10-15 part are added in reactor, 5-10min is reacted at temperature 40-50 DEG C, add isocaprylic acid zinc 3-8 part subsequently and to dimethyldibenzylidenesorbitol 5-10 part, stir 10-20min with speed 300-400r/min;

S2: terpolymer EP rubber 30-50 part, magnesium hydroxide 5-10 part, polysulfone resin 8-12 part and the mixing of calcium cyclamate 5-9 part are added in reactor, react 8-15min at temperature 70-90 DEG C;

S3: gained liquid, thioglycolic acid strontium 2-6 part, Microcrystalline Cellulose 2-8 part and fined sulphur ore powder 1-6 part in gained liquid, step S1 in step S2 are added Banbury mixer, and mixing 3-8min at temperature is 55-65 DEG C, discharging cools and obtain described cable jacket material.

5. the preparation method of a kind of Environment-friendlywear-resistant wear-resistant cable sheath material according to claim 4, is characterized in that, temperature described in step S1 is 45 DEG C, reaction 8min; Speed is 350r/min, stirs 18min.

6. the preparation method of a kind of Environment-friendlywear-resistant wear-resistant cable sheath material according to claim 4, is characterized in that, temperature described in step S2 is 80 DEG C, reaction 12min.

7. the preparation method of a kind of Environment-friendlywear-resistant wear-resistant cable sheath material according to claim 4, is characterized in that, temperature described in step S3 is 60 DEG C, mixing 6min.