CN104893176A - CNT (carbon nano-tube)-based polymer modified cable material with hollow glass beads added as well as preparation method of cable material - Google Patents

Abstract

The invention discloses a CNT (carbon nano-tube)-based polymer modified cable material with hollow glass beads added. The cable material is characterized by being prepared from raw materials in parts by weight as follows: 13-15 parts of CNTs, 1-1.5 parts of a titanate coupling agent TC-131, 12-14 parts of butyl methacrylate, 5-6 parts of ammonium polyphosphate, 0.02-0.04 parts of tert-butyl hydroperoxide, 68-70 parts of polyvinyl chloride resin, 1-2 parts of an accelerant TMTM, 9-13 parts of trioctyl trimellitate, 5-7 parts of the hollow glass beads, 3-5 parts of nano-graphite powder, 1.5-3 parts of PE (polyethylene) wax and 7-9 parts of an aid. Firstly, a CNT-based polymer is prepared for modification of a cable material, in cooperation with addition of the hollow glass beads, the nano-graphite powder and the aid, the thermal stability, the wear resistance, the flexibility and the processing fluidity of the cable material are enhanced, the prepared cable material has the good weather resistance, the processing speed is increased, and the cost is reduced.

Description

A kind of carbon nanotube-based polymer modification CABLE MATERIALS of adding hollow glass micropearl and preparation method thereof

Technical field

The present invention relates to cable material field, particularly a kind of carbon nanotube-based polymer modification CABLE MATERIALS of adding hollow glass micropearl and preparation method thereof.

Background technology

Hollow glass micropearl is the small hollow glass spheroid of a kind of size, belong to ceramic, there is the advantages such as light weight, low heat conduction, sound insulation, high dispersive, electrical insulating property and Heat stability is good, the novel light material of a kind of of many uses, the excellent performance being that development in recent years is got up.The density of hollow glass micropearl is about ten parts of traditional stopping composition density of particle, greatly can alleviate the basic weight of product after filling, substitutes and saves more production resin, reduce product cost.Because hollow glass micropearl is microspheres, in liquid resin, have more good mobility than sheet, needle-like or erose filler, so mold filling excellent performance.It is low that hollow glass micropearl also has water-intake rate, the feature that oil absorbency is low, is suitable as the stopping composition of CABLE MATERIALS.

Carbon nanotube is the material with most high specific strength can prepared at present.If with Other Engineering material for matrix and carbon nanotube make matrix material, composite material exhibits will can be made to go out good intensity, elasticity, fatigue resistance and isotropy, bring great improvement to the performance of matrix material; The hardness of carbon nanotube is suitable with diamond, but has good snappiness, can stretch; Carbon nanotube has good conductivity, because the structure of carbon nanotube is identical with the laminated structure of graphite, so have good electric property.

Carbon nanotube is made carbon nanotube based polyalcohol in the present invention and hollow glass micropearl together joins in CABLE MATERIALS, modification is carried out to polyvinyl chloride, enhance the wear resistance of CABLE MATERIALS, snappiness, processing fluidity, the CABLE MATERIALS made has good water tolerance, oil-proofness, weathering resistance, long service life, improve processing speed, reduce cost.

Summary of the invention

The object of this invention is to provide a kind of carbon nanotube-based polymer modification CABLE MATERIALS of adding hollow glass micropearl and preparation method thereof.

In order to realize object of the present invention, the present invention is by following scheme implementation:

Add a carbon nanotube-based polymer modification CABLE MATERIALS for hollow glass micropearl, be made up of the raw material of following weight part: carbon nanotube 13-15, titanate coupling agent TC-131 1-1.5, butyl methacrylate 12-14, ammonium polyphosphate 5-6, tertbutyl peroxide 0.02-0.04, polyvinyl chloride (PVC) RESINS 68-70, TM monex TM 1-2, trioctyl trimellitate 9-13, hollow glass micropearl 5-7, Nano graphite powder 3-5, PE wax 1.5-3, auxiliary agent 7-9;

Described auxiliary agent comprises the raw material of following weight part: rapeseed oil 6-8, aluminum nitride powder 2-3, titanium dioxide 4-6, calcium zinc stabilizer DA-9202-3, Viscoat 295 2-3, polyimide 3-5, brucite fiber 1-2, anti-aging agent TPPD 0.3-0.5, Viscotrol C 3-4, ferrocene 2-3, phthalic acid dibutyl ester 1-2; Preparation method is preparation method, and to be preparation method be that aluminum nitride powder, titanium dioxide are put into rapeseed oil, Viscotrol C grinds and makes mixture in 2-3 hour; Then polyimide is heated to softening after add Viscoat 295 mixing, stirring reaction 60-90 minute, then add all the other remaining components, temperature control is at 50 DEG C-60 DEG C, and reaction 2-3 hour, finally adds mixture, be warming up to 80 DEG C-100 DEG C, stirring reaction 30-40 minute and get final product.

A kind of carbon nanotube-based polymer modification CABLE MATERIALS of adding hollow glass micropearl of the present invention, be made up of following concrete steps:

(1) by titanate coupling agent TC-131, butyl methacrylate, tertbutyl peroxide mixing, be placed in the water-bath of 85 DEG C-90 DEG C and heat while stirring, until stop heating when there is certain viscosity, be cooled to room temperature, add carbon nanotube, ammonium polyphosphate, stir, then control temperature is at 45 DEG C-60 DEG C, keep 3-4 hour, then continue to be warming up to 90 DEG C-100 DEG C, be incubated and within 100-120 minute, obtain carbon nanotube polymer masterbatch A;

(2) polyvinyl chloride (PVC) RESINS is heated to melting, all the other remaining components then added except auxiliary agent mix, and stir 8-12 minute, send into extruding pelletization on twin screw extruder, obtain B material;

(3) expected by A, B expects, auxiliary agent joins in high mixer, temperature control bit 120 DEG C-125 DEG C mixing 5-8 minute, then by twin screw extruder granulation, namely cooling drying obtains CABLE MATERIALS of the present invention.

Excellent effect of the present invention is: first the present invention makes carbon nanotube based polyalcohol and carry out manageing it to CABLE MATERIALS, coordinate the interpolation of hollow glass micropearl, Nano graphite powder, auxiliary agent again, enhance the thermostability of CABLE MATERIALS, wear resistance, snappiness, processing fluidity, the CABLE MATERIALS made has good weathering resistance, improve processing speed, reduce cost.

Embodiment

Below by specific examples, the present invention is described in detail.

Add a carbon nanotube-based polymer modification CABLE MATERIALS for hollow glass micropearl, be made up of the raw material of following weight part (kilogram): carbon nanotube 13, titanate coupling agent TC-131 1, butyl methacrylate 12, ammonium polyphosphate 5, tertbutyl peroxide 0.02, polyvinyl chloride (PVC) RESINS 68, TM monex TM 1, trioctyl trimellitate 9, hollow glass micropearl 5, Nano graphite powder 3, PE wax 1.5, auxiliary agent 7;

Described auxiliary agent comprises the raw material of following weight part (kilogram): rapeseed oil 6, aluminum nitride powder 2, titanium dioxide 4, calcium zinc stabilizer DA-920 2, Viscoat 295 2, polyimide 3, brucite fiber 1, anti-aging agent TPPD 0.3, Viscotrol C 3, ferrocene 2, phthalic acid dibutyl ester 1; Preparation method is preparation method, and to be preparation method be that aluminum nitride powder, titanium dioxide are put into rapeseed oil, Viscotrol C grinds and makes mixture in 2-3 hour; Then polyimide is heated to softening after add Viscoat 295 mixing, stirring reaction 60-90 minute, then add all the other remaining components, temperature control is at 50 DEG C-60 DEG C, and reaction 2-3 hour, finally adds mixture, be warming up to 80 DEG C-100 DEG C, stirring reaction 30-40 minute and get final product.

A kind of carbon nanotube-based polymer modification CABLE MATERIALS of adding hollow glass micropearl of the present invention, be made up of following concrete steps:

(1) by titanate coupling agent TC-131, butyl methacrylate, tertbutyl peroxide mixing, be placed in the water-bath of 85 DEG C-90 DEG C and heat while stirring, until stop heating when there is certain viscosity, be cooled to room temperature, add carbon nanotube, ammonium polyphosphate, stir, then control temperature is at 45 DEG C-60 DEG C, keep 3-4 hour, then continue to be warming up to 90 DEG C-100 DEG C, be incubated and within 100-120 minute, obtain carbon nanotube polymer masterbatch A;

(2) polyvinyl chloride (PVC) RESINS is heated to melting, all the other remaining components then added except auxiliary agent mix, and stir 8-12 minute, send into extruding pelletization on twin screw extruder, obtain B material;

(3) expected by A, B expects, auxiliary agent joins in high mixer, temperature control bit 120 DEG C-125 DEG C mixing 5-8 minute, then by twin screw extruder granulation, namely cooling drying obtains CABLE MATERIALS of the present invention.

By contrasting with the performance of common polyvinyl chloride cable material, can find out that CABLE MATERIALS of the present invention is better than the performance of common polyvinyl chloride cable material, being worthy to be popularized.

Claims (2)

1. one kind is added the carbon nanotube-based polymer modification CABLE MATERIALS of hollow glass micropearl, it is characterized in that, be made up of the raw material of following weight part: carbon nanotube 13-15, titanate coupling agent TC-131 1-1.5, butyl methacrylate 12-14, ammonium polyphosphate 5-6, tertbutyl peroxide 0.02-0.04, polyvinyl chloride (PVC) RESINS 68-70, TM monex TM 1-2, trioctyl trimellitate 9-13, hollow glass micropearl 5-7, Nano graphite powder 3-5, PE wax 1.5-3, auxiliary agent 7-9;

Described auxiliary agent comprises the raw material of following weight part: rapeseed oil 6-8, aluminum nitride powder 2-3, titanium dioxide 4-6, calcium zinc stabilizer DA-920 2-3, Viscoat 295 2-3, polyimide 3-5, brucite fiber 1-2, anti-aging agent TPPD 0.3-0.5, Viscotrol C 3-4, ferrocene 2-3, phthalic acid dibutyl ester 1-2; Preparation method is preparation method, and to be preparation method be that aluminum nitride powder, titanium dioxide are put into rapeseed oil, Viscotrol C grinds and makes mixture in 2-3 hour; Then polyimide is heated to softening after add Viscoat 295 mixing, stirring reaction 60-90 minute, then add all the other remaining components, temperature control is at 50 DEG C-60 DEG C, and reaction 2-3 hour, finally adds mixture, be warming up to 80 DEG C-100 DEG C, stirring reaction 30-40 minute and get final product.

2. a kind of carbon nanotube-based polymer modification CABLE MATERIALS of adding hollow glass micropearl according to claim 1, is characterized in that, be made up of following concrete steps:

(1) by titanate coupling agent TC-131, butyl methacrylate, tertbutyl peroxide mixing, be placed in the water-bath of 85 DEG C-90 DEG C and heat while stirring, until stop heating when there is certain viscosity, be cooled to room temperature, add carbon nanotube, ammonium polyphosphate, stir, then control temperature is at 45 DEG C-60 DEG C, keep 3-4 hour, then continue to be warming up to 90 DEG C-100 DEG C, be incubated and within 100-120 minute, obtain carbon nanotube polymer masterbatch A;

(2) polyvinyl chloride (PVC) RESINS is heated to melting, all the other remaining components then added except auxiliary agent mix, and stir 8-12 minute, send into extruding pelletization on twin screw extruder, obtain B material;

(3) expected by A, B expects, auxiliary agent joins in high mixer, temperature control bit 120 DEG C-125 DEG C mixing 5-8 minute, then by twin screw extruder granulation, namely cooling drying obtains CABLE MATERIALS of the present invention.