CN103545045B - A kind of High-voltage cable structure with strippable semi-conductive external shield material - Google Patents

Abstract

The formula that the invention provides a kind of strippable semi-conductive external shield material and the High-voltage cable structure prepared by it.The formula of strippable semi-conductive external shield material has following composition: with parts by weight, base-material 100 parts, conductive black 50-55 part, remover 2-4 part, antioxidant 3-5 part, crosslinking agent 3-5 part, reinforcing agent 1-3 part, age resistor 0.5-1 part, plasticizer 10-12 part.High-voltage cable structure by core conductor and be coated on the semiconductive internal shield of conductor periphery from inside to outside successively, insulating barrier, semiconductive outer shielding layer form, wherein said insulating barrier is crosslinked polyolefin materials, and semiconductive outer shielding layer is formula materials of the present invention.

Description

A kind of High-voltage cable structure with strippable semi-conductive external shield material

Technical field

The present invention relates to technical field of composite materials, a kind of strippable semi-conductive external shield material and High-voltage cable structure prepared therefrom are particularly provided.

Background technology

Wires and cables industry is electric power and the important supporting industry of the two large pillar industries in national economy that communicate, extremely important status is had in national economy, wherein industry production total amount accounts for 4 ‰ to 5 ‰ of the total GDP in the whole nation, electric wire product plays the important function of the conveying energy, transmission of information, is national economy " blood vessel " and " nerve ".

Insulated cable is normally formed at conductor core wire outer cladding insulating barrier, and it is well-known, in higher high-voltage dc, insulated cable is fine uneven owing to existing, easily causing the space between insulating barrier and conductor and between insulating barrier and outer shielding layer that partial discharge phenomenon occurs, therefore for making the Electric Field Distribution on cable insulation even, reducing the electric stress of insulating barrier, thus prevent said corona discharge, usually need to arrange semiconductive external shield material at its outer surface.

Existing semiconductive external shield material mainly add in the base-material of polymer composites there is certain electric conductivity conductive black, add other auxiliary materials to prepare again, but for the selection of base-material and auxiliary material, particularly for the formula of each composition, then not consensus, and these components and content thereof have very important impact for follow-up product preparation process and the properties of product that finally obtain exactly.Such as base-material adopts ethylene-propylene rubber, material that polyvinyl chloride equimolecular quantity is higher, its carrying capacity for filler is poor, in addition the addition of conductive black is large, thus cause the mobility of material be deteriorated and cause the follow-up difficulty extruding processing, and the vinyl-vinyl acetate copolymer generally used now as base-material then exist such as poor with insulation displacement, extrude and add VA decomposes and produce particle on surface and then affect the defects such as properties of product in man-hour.

Therefore, obtain a kind of formula with the semiconductive external shield material of excellent and stable serviceability and the processing technology adapted with it, be the emphasis that technical staff studies and improves always.

Summary of the invention

Namely object of the present invention is to provide a kind of novel semiconductive external shield material with excellent and stable serviceability and the High-voltage cable structure prepared by it.

High-voltage cable structure in the present invention by core conductor and be coated on the semiconductive internal shield of conductor periphery from inside to outside successively, insulating barrier, semiconductive outer shielding layer form, wherein said insulating barrier is crosslinked polyolefin materials, it is characterized in that described semiconductive outer shielding layer has following formula: with parts by weight, base-material 100 parts, conductive black 50-55 part, remover 2-4 part, antioxidant 3-5 part, crosslinking agent 3-5 part, reinforcing agent 1-3 part, age resistor 0.5-1 part, plasticizer 10-12 part

Described base-material is mixed by ethylene propylene diene rubber and vinyl-vinyl acetate copolymer, and the ratio of the two is ethylene propylene diene rubber: vinyl-vinyl acetate copolymer=1:3-5, the Mooney viscosity (1+4) 125 DEG C of described ethylene propylene diene rubber is 20-25, and in described vinyl-vinyl acetate copolymer, the content of vinyl acetate is 55-60%;

Described conductive black is the conductive black being mixed with multi-walled carbon nano-tubes, the iodine number of carbon black is 100-200mg/g, and average grain diameter is 70-100nm, DBP is 150-200cc/100g, the diameter of multi-walled carbon nano-tubes is 10-20nm, is 10-15% relative to the content of carbon black;

Described remover is OPE;

Described antioxidant is four-[3-(3,5-di-tert-butyl-hydroxy phenyl) propionic acid] pentaerythritol esters and poly-two (2-methyl-4-hydroxyl-5-tert-butyl benzene) thioether, and the mass ratio of the two is 1:1;

Described reinforcing agent is four acicular type zinc oxide crystal whisker;

Described crosslinking agent is cumyl peroxide;

Described age resistor is N-(1,3-dimethyl) butyl-N '-diphenyl-para-phenylene diamine;

Described plasticizer is zinc stearate.

The reasonable design of the present invention formula of semiconductive external shield material, by coordinative role and the content proportioning the most suitable of each component, obtain the semi-conductive shielding material with excellent mechanical performance, stripping performance, fire resistance, electric conductivity and temperature stabilization performance, and applied the High-voltage cable structure preparing excellent performance.

Embodiment

Embodiment 1.

Undertaken preparing burden by each component proportion given by table 1 and each raw material is all dried to 100 DEG C for subsequent use; Then first plasticate to ethylene propylene diene rubber (A), when plasticating, control roll temperature is at 70 DEG C, and plasticate time 5-10min; By the order of vinyl-vinyl acetate copolymer (B), conductive black (C), plasticizer (D), reinforcing agent (E), age resistor (F), remover (G), antioxidant (H), each raw material successively being added banbury subsequently carries out mixing, mixing temperature is 100-120 DEG C, and mixing time is 10-15min; Then put in banbury by the ethylene propylene diene rubber of plasticating and carry out melting mixing, melting temperature is 170-190 DEG C, and mixing time is 5-10min; Through single screw extrusion machine extruding pelletization after mixing discharging, enter high-speed kneading machine and spray crosslinking agent (I) mixed at high speed, and control temperature is at 80-100 DEG C after granulation, after mixing 3-5min, cooling obtains product.Wherein ethylene propylene diene rubber: vinyl-vinyl acetate copolymer=1:4, the Mooney viscosity (1+4) 125 DEG C of described ethylene propylene diene rubber is 23, in described vinyl-vinyl acetate copolymer, the content of vinyl acetate is 57%, in described conductive black, the iodine number of carbon black is 150mg/g, average grain diameter is 80nm, DBP is 180cc/100g, and the diameter of multi-walled carbon nano-tubes is 15nm, is 12% relative to the content of carbon black.

Embodiment 2-3 and comparative example 1#-9# place formula as shown in table 1 outside, preparation method is all identical with embodiment 1.

Table 1

The performance parameter test of each embodiment is listed in table 2, and wherein specific insulation is measured respectively under 23 DEG C and 90 DEG C of two temperature, and peeling force is measured respectively under 25 DEG C and 50 DEG C of two temperature.As shown in Table 2:

The content of conductive black can not be too low, otherwise the wretched insufficiency of the electric conductivity of product can be caused, but can not be too high, otherwise the severe exacerbation of its specific insulation temperature stability can be caused, also can cause the deterioration of the mechanical properties such as intensity, percentage elongation and permanent deformation simultaneously.The content of the conductive black in the present invention's formula should control at 50-55 weight portion

The content of reinforcing agent four acicular type zinc oxide crystal whisker at least should reach 1 weight portion, otherwise the tensile strength of product will be not enough, particularly can cause the severe exacerbation of permanent deformation; But preferably not more than 3 weight portions, otherwise the rising of system viscosity can be caused thus be unfavorable for processing characteristics, causing product mechanics penalty on the contrary.

Adding of remover has vital effect for system relative to the stripping performance of insulating barrier, the acid value of Tissuemat E has material impact for the intermiscibility of itself and cross-linked polyolefin, and the OPE acid value selected in this formula is at 20-30mgKOH/g, poorer for the compatibility of common cross-linked polyolefin insulating barrier compared to common Tissuemat E, with ethylene propylene diene rubber and process in can obtain well and insulating barrier at the stripping performance of normal temperature and high temperature, for giving full play to its effect, OPE be at least 2 weight portions, if but its content is more than 4 weight portions, does not affect too much for stripping performance, can add to the difficulties for the shaping of product on the contrary.

Antioxidant four-[3-(3,5-di-tert-butyl-hydroxy phenyl) propionic acid] pentaerythritol ester and poly-two (2-methyl-4-hydroxyl-5-tert-butyl benzene) thioether be that selecting of 1:1 mainly considers that it can play cooperative flame retardant effect well with four acicular type zinc oxide crystal whisker, and certain prevent the effect extruding precrosslink, in order to play this effect, its content at least should be 3 weight portions, when more than 5 weight portion, flame retardant effect does not increase significantly, and seriously may suppress follow-up being cross-linked simultaneously.

The content of crosslinking agent should reach 3 weight portions, can make crosslinked abundant not, be difficult to the dispersion making carbon black full and uniform, thus cause the specific insulation of product too high, the formability of system also can be caused to worsen simultaneously lower than 3 weight portions.But the content of crosslinking agent also should more than 5 weight portions, otherwise can not cause excessively crosslinked, makes product retractility severe exacerbation.

Table 2

The formula of embodiment 4 and 5 is except ethylene propylene diene rubber: the content that the ratio of vinyl-vinyl acetate copolymer is respectively vinyl acetate in 1:3 and 1:5, the vinyl-vinyl acetate copolymer selected is respectively 55% and 60%, multi-walled carbon nano-tubes is respectively except 10% and 15% relative to the content of carbon black, and all the other are identical with embodiment 2; Comparatively speaking, ethylene propylene diene rubber in comparative example 10#: the ratio of vinyl-vinyl acetate copolymer is 1:5.5, in comparative example 11#-12#, in vinyl-vinyl acetate copolymer, the content of vinyl acetate is respectively 50% and 65%, in comparative example 13#, multi-walled carbon nano-tubes is 5% relative to the content of carbon black, all the other are all identical with embodiment 2, and test result is as shown in table 3.

Table 3

As shown in Table 3, ethylene propylene diene rubber: the proportioning of vinyl-vinyl acetate copolymer must be suitable, too low ethylene propylene diene rubber content plays being difficult to the effect improving fissility, if but its too high levels, then may worsen mechanical property, thermal endurance etc.

In vinyl-vinyl acetate copolymer, the content of vinyl acetate is also the key factor affecting fissility, the too low then system of content of vinyl acetate and the intermiscibility of insulating barrier fine, and be difficult to peel off, its too high levels then can cause its softening temperature to reduce, thus high temperature fissility is deteriorated.

Under the prerequisite of conductive black mass conservation, the interpolation of multi-walled carbon nano-tubes significantly improves the stability of specific insulation and its temperature, also there is certain improvement for mechanical property etc. simultaneously, for giving full play to the effect of multi-walled carbon nano-tubes, its content at least should be 5%, if but more than 15%, its effect also can't significantly change again.

For formula system of the present invention, ethylene propylene diene rubber must be plasticated through certain before mixing, could meet the requirement of extruding, but not easily too high, the time should not be long for the temperature of plasticating, otherwise affect its mixing behavior on the contrary, through summing up with roller temperature at 70 DEG C, the time 5-10min of plasticating is advisable; And system can be realized by the sequential feeds empirical tests of vinyl-vinyl acetate copolymer, conductive black, plasticizer, reinforcing agent, age resistor, remover, antioxidant and mix the most uniformly; The temperature of melting mixing has at 170-190 DEG C the extrusion performance that flows preferably, and mixing time is not easily excessively of a specified duration, otherwise when easily causing extruding, precrosslink occurs; And to be verified be the selection the most suitable that can obtain the cross-linking properties that contains last mixing temperature and time.Through the formula of the present invention's design, be aided with described preparation technology parameter, the semiconductive external shield material with excellent mechanical performance, stripping performance, fire resistance, electric conductivity and stability can be obtained.

By the semiconductive external shield material in the present invention by coextrusion processes, prepare by the conductor of core and be coated on the semiconductive internal shield of conductor periphery from inside to outside successively, High-voltage cable structure that insulating barrier, semiconductive outer shielding layer are formed.

Claims (1)

1. one kind has the High-voltage cable structure of strippable semi-conductive outer shielding layer, described High-voltage cable structure by core conductor and be coated on the semiconductive internal shield of conductor periphery from inside to outside successively, insulating barrier, semiconductive outer shielding layer form, wherein said insulating barrier is crosslinked polyolefin materials

It is characterized in that described strippable semi-conductive outer shielding layer has following formula: with parts by weight, base-material 100 parts, conductive black 50-55 part, remover 2-4 part, antioxidant 3-5 part, crosslinking agent 3-5 part, reinforcing agent 1-3 part, age resistor 0.5-1 part, plasticizer 10-12 part;

Described base-material is mixed by ethylene propylene diene rubber and vinyl-vinyl acetate copolymer, and the ratio of the two is ethylene propylene diene rubber: vinyl-vinyl acetate copolymer=1:4, the Mooney viscosity (1+4) 125 DEG C of described ethylene propylene diene rubber is 20-25, and in described vinyl-vinyl acetate copolymer, the content of vinyl acetate is 57%;

Described conductive black is the conductive black being mixed with multi-walled carbon nano-tubes, the iodine number of carbon black is 100-200mg/g, and average grain diameter is 70-100nm, DBP is 150-200cc/100g, the diameter of multi-walled carbon nano-tubes is 10-20nm, is 10-15% relative to the content of carbon black;

Described remover is OPE;

Described antioxidant is four-[3-(3,5-di-tert-butyl-hydroxy phenyl) propionic acid] pentaerythritol esters and poly-two (2-methyl-4-hydroxyl-5-tert-butyl benzene) thioether, and the mass ratio of the two is 1:1;

Described reinforcing agent is four acicular type zinc oxide crystal whisker;

Described crosslinking agent is cumyl peroxide;

Described age resistor is N-(1,3-dimethyl) butyl-N '-diphenyl-para-phenylene diamine;

Described plasticizer is zinc stearate.