CN106117692A - A kind of communication insulation acid and alkali-resistance flame-proof cable material - Google Patents
A kind of communication insulation acid and alkali-resistance flame-proof cable material Download PDFInfo
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- CN106117692A CN106117692A CN201610485492.7A CN201610485492A CN106117692A CN 106117692 A CN106117692 A CN 106117692A CN 201610485492 A CN201610485492 A CN 201610485492A CN 106117692 A CN106117692 A CN 106117692A
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Abstract
nullThe present invention relates to a kind of communication insulation acid and alkali-resistance flame-proof cable material,It is made up of the component of following mass fraction: cobalt aluminate powder 50~54 parts、Acrylic acid methyl ester. 52~56 parts、Triallyl isocyanurate 48~52 parts、Polyolefin elastomer 52~56 parts、Rosin resin 48~52 parts、Brazil wax 52~56 parts、Wollastonite powder 48~52 parts、O-phthalic ester 54~58 parts、Polyvinyl chloride resin 48~52 parts、Corvic 52~56 parts、Lead sulfate tribasic 48~52 parts、Trioctyl trimellitate (TOTM) 52~56 parts、Firebrake ZB 48~52 parts、Esters of silicon acis coupling agent 52~56 parts、Methyl dehydroabietate 48~52 parts、Precipitated calcium carbonate 52~56 parts、EU 48~52 parts、Paraffin hydrocarbon ils 52~56 parts、O-cresol formaldehyde epoxy resin 48~52 parts、Trioctyl trimellitate (TOTM) 52~56 parts、Oleum Ricini 48~52 parts、Nano imvite 52~56 parts.This product has the most corrosion-resistant, fire protection flame retarding, insulating properties, is suitable for using in field of telecommunications cables.
Description
Technical field
The present invention relates to a kind of communication insulation acid and alkali-resistance flame-proof cable material, belong to communication technical field.
Background technology
Communication cable is transmission phone, telegram, fax paper, TV and the electricity of broadcast program, data and other signals of telecommunication
Cable.Formed by the wire stranding of more than a pair mutually insulated.Communication cable, compared with overhead line, has that message capacity is big, passes
Defeated stability height, good confidentiality, few by the advantage such as natural conditions and external influences.In order to protect the wire of inside, need
Strengthen the performance of outside manufacture so that it is there is the characteristics such as insulation, antistatic, acid and alkali-resistance.
Summary of the invention
It is an object of the invention to provide a kind of communication insulation acid and alkali-resistance flame-proof cable material, in order to be better achieved logical
Communication cable flame-resistant insulation acid and alkali-resistance function.
To achieve these goals, technical scheme is as follows.
A kind of communication insulation acid and alkali-resistance flame-proof cable material, is made up of the component of following mass fraction: cobalt aluminate powder
50~54 parts, acrylic acid methyl ester. 52~56 parts, Triallyl isocyanurate 48~52 parts, polyolefin elastomer 52~56 parts,
Rosin resin 48~52 parts, Brazil wax 52~56 parts, wollastonite powder 48~52 parts, O-phthalic ester 54~58 parts, PVC
Resin 48~52 parts, Corvic 52~56 parts, lead sulfate tribasic 48~52 parts, trioctyl trimellitate (TOTM) 52~56
Part, Firebrake ZB 48~52 parts, esters of silicon acis coupling agent 52~56 parts, methyl dehydroabietate 48~52 parts, precipitated calcium carbonate 52~56
Part, EU 48~52 parts, paraffin hydrocarbon ils 52~56 parts, o-cresol formaldehyde epoxy resin 48~52 parts, tri trimellitate
Monooctyl ester 52~56 parts, Oleum Ricini 48~52 parts, nano imvite 52~56 parts.
Further, above-mentioned communication insulation acid and alkali-resistance flame-proof cable material, it is made up of the component of following mass fraction: aluminum
Acid cobalt dust 50 parts, acrylic acid methyl ester. 52 parts, Triallyl isocyanurate 48 parts, polyolefin elastomer 52 parts, rosin resin
48 parts, Brazil wax 52 parts, 48 parts of wollastonite powder, O-phthalic ester 54 parts, polyvinyl chloride resin 48 parts, Corvic 52
Part, lead sulfate tribasic 48 parts, trioctyl trimellitate (TOTM) 52 parts, Firebrake ZB 48 parts, esters of silicon acis coupling agent 52 parts, dehydroabietic acid first
Ester 48 parts, precipitated calcium carbonate 52 parts, EU 48 parts, paraffin hydrocarbon ils 52 parts, o-cresol formaldehyde epoxy resin 48 parts, inclined benzene
Three sour three monooctyl esters 52 parts, Oleum Ricini 48 parts, nano imvite 52 parts.
Further, above-mentioned communication insulation acid and alkali-resistance flame-proof cable material, it is made up of the component of following mass fraction: aluminum
Acid cobalt dust 52 parts, acrylic acid methyl ester. 54 parts, Triallyl isocyanurate 50 parts, polyolefin elastomer 54 parts, rosin resin
50 parts, Brazil wax 54 parts, 50 parts of wollastonite powder, O-phthalic ester 56 parts, polyvinyl chloride resin 50 parts, Corvic 54
Part, lead sulfate tribasic 50 parts, trioctyl trimellitate (TOTM) 54 parts, Firebrake ZB 50 parts, esters of silicon acis coupling agent 54 parts, dehydroabietic acid first
Ester 50 parts, precipitated calcium carbonate 54 parts, EU 50 parts, paraffin hydrocarbon ils 54 parts, o-cresol formaldehyde epoxy resin 50 parts, inclined benzene
Three sour three monooctyl esters 54 parts, Oleum Ricini 50 parts, nano imvite 54 parts.
Further, above-mentioned communication insulation acid and alkali-resistance flame-proof cable material, it is made up of the component of following mass fraction: aluminum
Acid cobalt dust 54 parts, acrylic acid methyl ester. 56 parts, Triallyl isocyanurate 52 parts, polyolefin elastomer 56 parts, rosin resin
52 parts, Brazil wax 56 parts, 52 parts of wollastonite powder, O-phthalic ester 58 parts, polyvinyl chloride resin 52 parts, Corvic 56
Part, lead sulfate tribasic 52 parts, trioctyl trimellitate (TOTM) 56 parts, Firebrake ZB 52 parts, esters of silicon acis coupling agent 56 parts, dehydroabietic acid first
Ester 52 parts, precipitated calcium carbonate 56 parts, EU 52 parts, paraffin hydrocarbon ils 56 parts, o-cresol formaldehyde epoxy resin 52 parts, inclined benzene
Three sour three monooctyl esters 56 parts, Oleum Ricini 52 parts, nano imvite 56 parts.
Further, above-mentioned communication insulation acid and alkali-resistance flame-proof cable material preparation method step is as follows:
(1) by the cobalt aluminate powder of described mass fraction, acrylic acid methyl ester., Triallyl isocyanurate, polyolefin bullet
Gonosome, rosin resin, Brazil wax, wollastonite powder, O-phthalic ester, polyvinyl chloride resin, lead sulfate tribasic, trimellitic acid
Three monooctyl esters, Firebrake ZB, esters of silicon acis coupling agent, methyl dehydroabietate, precipitated calcium carbonate, EU, paraffin hydrocarbon ils, adjacent first
Novolac epoxy resin, Oleum Ricini, nano imvite are mixed, ultrasonic high speed dispersion, and ultrasonic frequency is 20~40KHz, point
Dissipating speed 5000~about 5400r/min, jitter time is 30~60min;
(2) adding the Corvic of described mass fraction, ultrasonic high speed dispersion, ultrasonic frequency is 20~35KHz,
Rate of dispersion 4800~about 5200r/min, jitter time is 30~50min;
(3) add the trioctyl trimellitate (TOTM) of described mass fraction, ultrasonic high speed dispersion, ultrasonic frequency be 20~
30KHz, rate of dispersion 4600~about 4800r/min, jitter time is 20~40min;This product is prepared after mix homogeneously.
This beneficial effect of the invention is: BENTONG credit insulation acid and alkali-resistance flame-proof cable material process of preparing is simple,
Prepared product has the most corrosion-resistant, fire protection flame retarding, insulating properties, is suitable for using in field of telecommunications cables.
Detailed description of the invention
Below in conjunction with embodiment, the detailed description of the invention of the present invention is described, in order to be better understood from the present invention.
Embodiment 1
Communication in the present embodiment insulation acid and alkali-resistance flame-proof cable material, is made up of the component of following mass fraction: aluminum
Acid cobalt dust 50 parts, acrylic acid methyl ester. 52 parts, Triallyl isocyanurate 48 parts, polyolefin elastomer 52 parts, rosin resin
48 parts, Brazil wax 52 parts, 48 parts of wollastonite powder, O-phthalic ester 54 parts, polyvinyl chloride resin 48 parts, Corvic 52
Part, lead sulfate tribasic 48 parts, trioctyl trimellitate (TOTM) 52 parts, Firebrake ZB 48 parts, esters of silicon acis coupling agent 52 parts, dehydroabietic acid first
Ester 48 parts, precipitated calcium carbonate 52 parts, EU 48 parts, paraffin hydrocarbon ils 52 parts, o-cresol formaldehyde epoxy resin 48 parts, inclined benzene
Three sour three monooctyl esters 52 parts, Oleum Ricini 48 parts, nano imvite 52 parts.
Above-mentioned communication insulation acid and alkali-resistance flame-proof cable material preparation method step is as follows:
(1) by the cobalt aluminate powder of described mass fraction, acrylic acid methyl ester., Triallyl isocyanurate, polyolefin bullet
Gonosome, rosin resin, Brazil wax, wollastonite powder, O-phthalic ester, polyvinyl chloride resin, lead sulfate tribasic, trimellitic acid
Three monooctyl esters, Firebrake ZB, esters of silicon acis coupling agent, methyl dehydroabietate, precipitated calcium carbonate, EU, paraffin hydrocarbon ils, adjacent first
Novolac epoxy resin, Oleum Ricini, nano imvite are mixed, ultrasonic high speed dispersion, and ultrasonic frequency is 20kHz, dispersion speed
Degree about 5400r/min, jitter time is 60min;
(2) adding the Corvic of described mass fraction, ultrasonic high speed dispersion, ultrasonic frequency is 20kHz, dispersion
About speed 5200r/min, jitter time is 50min;
(3) adding the trioctyl trimellitate (TOTM) of described mass fraction, ultrasonic high speed dispersion, ultrasonic frequency is 20kHz, point
Dissipating about speed 4800r/min, jitter time is 40min;This product is prepared after mix homogeneously.
Embodiment 2
Communication in the present embodiment insulation acid and alkali-resistance flame-proof cable material, is made up of the component of following mass fraction: aluminum
Acid cobalt dust 52 parts, acrylic acid methyl ester. 54 parts, Triallyl isocyanurate 50 parts, polyolefin elastomer 54 parts, rosin resin
50 parts, Brazil wax 54 parts, 50 parts of wollastonite powder, O-phthalic ester 56 parts, polyvinyl chloride resin 50 parts, Corvic 54
Part, lead sulfate tribasic 50 parts, trioctyl trimellitate (TOTM) 54 parts, Firebrake ZB 50 parts, esters of silicon acis coupling agent 54 parts, dehydroabietic acid first
Ester 50 parts, precipitated calcium carbonate 54 parts, EU 50 parts, paraffin hydrocarbon ils 54 parts, o-cresol formaldehyde epoxy resin 50 parts, inclined benzene
Three sour three monooctyl esters 54 parts, Oleum Ricini 50 parts, nano imvite 54 parts.
Above-mentioned communication insulation acid and alkali-resistance flame-proof cable material preparation method step is as follows:
(1) by the cobalt aluminate powder of described mass fraction, acrylic acid methyl ester., Triallyl isocyanurate, polyolefin bullet
Gonosome, rosin resin, Brazil wax, wollastonite powder, O-phthalic ester, polyvinyl chloride resin, lead sulfate tribasic, trimellitic acid
Three monooctyl esters, Firebrake ZB, esters of silicon acis coupling agent, methyl dehydroabietate, precipitated calcium carbonate, EU, paraffin hydrocarbon ils, adjacent first
Novolac epoxy resin, Oleum Ricini, nano imvite are mixed, ultrasonic high speed dispersion, and ultrasonic frequency is 30kHz, dispersion speed
Degree about 5200r/min, jitter time is 45min;
(2) adding the Corvic of described mass fraction, ultrasonic high speed dispersion, ultrasonic frequency is 27kHz, dispersion
About speed 5000r/min, jitter time is 40min;
(3) adding the trioctyl trimellitate (TOTM) of described mass fraction, ultrasonic high speed dispersion, ultrasonic frequency is 25kHz, point
Dissipating about speed 4700r/min, jitter time is 30min;This product is prepared after mix homogeneously.
Embodiment 3
Communication in the present embodiment insulation acid and alkali-resistance flame-proof cable material, is made up of the component of following mass fraction: aluminum
Acid cobalt dust 54 parts, acrylic acid methyl ester. 56 parts, Triallyl isocyanurate 52 parts, polyolefin elastomer 56 parts, rosin resin
52 parts, Brazil wax 56 parts, 52 parts of wollastonite powder, O-phthalic ester 58 parts, polyvinyl chloride resin 52 parts, Corvic 56
Part, lead sulfate tribasic 52 parts, trioctyl trimellitate (TOTM) 56 parts, Firebrake ZB 52 parts, esters of silicon acis coupling agent 56 parts, dehydroabietic acid first
Ester 52 parts, precipitated calcium carbonate 56 parts, EU 52 parts, paraffin hydrocarbon ils 56 parts, o-cresol formaldehyde epoxy resin 52 parts, inclined benzene
Three sour three monooctyl esters 56 parts, Oleum Ricini 52 parts, nano imvite 56 parts.
Above-mentioned communication insulation acid and alkali-resistance flame-proof cable material preparation method step is as follows:
(1) by the cobalt aluminate powder of described mass fraction, acrylic acid methyl ester., Triallyl isocyanurate, polyolefin bullet
Gonosome, rosin resin, Brazil wax, wollastonite powder, O-phthalic ester, polyvinyl chloride resin, lead sulfate tribasic, trimellitic acid
Three monooctyl esters, Firebrake ZB, esters of silicon acis coupling agent, methyl dehydroabietate, precipitated calcium carbonate, EU, paraffin hydrocarbon ils, adjacent first
Novolac epoxy resin, Oleum Ricini, nano imvite are mixed, ultrasonic high speed dispersion, and ultrasonic frequency is 40kHz, dispersion speed
Degree 5000r/min, jitter time is 30min;
(2) adding the Corvic of described mass fraction, ultrasonic high speed dispersion, ultrasonic frequency is 35kHz, dispersion
Speed 4800r/min, jitter time is 30min;
(3) adding the trioctyl trimellitate (TOTM) of described mass fraction, ultrasonic high speed dispersion, ultrasonic frequency is 30kHz, point
Dissipating about speed 4600r/min, jitter time is 20min;This product is prepared after mix homogeneously.
Performance measurement is carried out for the product in embodiment 1, embodiment 2 and embodiment 3 and certain commercially available prod, measured
Data are as shown in table 1.Fire protection flame retarding level estimate uses UL94 standard.
Table 1 the performance test results
Visible, product of the present invention has the most corrosion-resistant, fire protection flame retarding, insulating properties.
The above is the preferred embodiment of the present invention, it is noted that for those skilled in the art
For, under the premise without departing from the principles of the invention, it is also possible to make some improvements and modifications, these improvements and modifications are also considered as
Protection scope of the present invention.
Claims (5)
1. a communication insulation acid and alkali-resistance flame-proof cable material, it is characterised in that: it is made up of the component of following mass fraction: aluminum
Acid cobalt dust 50~54 parts, acrylic acid methyl ester. 52~56 parts, Triallyl isocyanurate 48~52 parts, polyolefin elastomer 52
~56 parts, rosin resin 48~52 parts, Brazil wax 52~56 parts, wollastonite powder 48~52 parts, O-phthalic ester 54~
58 parts, polyvinyl chloride resin 48~52 parts, Corvic 52~56 parts, lead sulfate tribasic 48~52 parts, trioctyl trimellitate (TOTM)
52~56 parts, Firebrake ZB 48~52 parts, esters of silicon acis coupling agent 52~56 parts, methyl dehydroabietate 48~52 parts, precipitated calcium carbonate
52~56 parts, EU 48~52 parts, paraffin hydrocarbon ils 52~56 parts, o-cresol formaldehyde epoxy resin 48~52 parts, inclined benzene
Three sour three monooctyl esters 52~56 parts, Oleum Ricini 48~52 parts, nano imvite 52~56 parts.
Communication the most according to claim 1 insulation acid and alkali-resistance flame-proof cable material, it is characterised in that: described communication is with absolutely
Edge acid and alkali-resistance flame-proof cable material is made up of the component of following mass fraction: 50 parts of cobalt aluminate powder, acrylic acid methyl ester. 52 parts, three
Allyl iso cyanurate 48 parts, polyolefin elastomer 52 parts, rosin resin 48 parts, Brazil wax 52 parts, wollastonite powder
48 parts, O-phthalic ester 54 parts, polyvinyl chloride resin 48 parts, Corvic 52 parts, lead sulfate tribasic 48 parts, tri trimellitate
Monooctyl ester 52 parts, Firebrake ZB 48 parts, esters of silicon acis coupling agent 52 parts, methyl dehydroabietate 48 parts, precipitated calcium carbonate 52 parts, polyether-type gather
Urethane 48 parts, paraffin hydrocarbon ils 52 parts, o-cresol formaldehyde epoxy resin 48 parts, trioctyl trimellitate (TOTM) 52 parts, Oleum Ricini 48 parts, nanometer
Montmorillonite 52 parts.
3. according to the insulation acid and alkali-resistance flame-proof cable material of the communication described in claim 1 to 2, it is characterised in that: described communication
It is made up of the component of following mass fraction with insulation acid and alkali-resistance flame-proof cable material: 52 parts of cobalt aluminate powder, acrylic acid methyl ester. 54
Part, Triallyl isocyanurate 50 parts, polyolefin elastomer 54 parts, rosin resin 50 parts, Brazil wax 54 parts, wollastonite
50 parts of powder, O-phthalic ester 56 parts, polyvinyl chloride resin 50 parts, Corvic 54 parts, lead sulfate tribasic 50 parts, inclined benzene three
Acid three monooctyl ester 54 parts, Firebrake ZB 50 parts, esters of silicon acis coupling agent 54 parts, methyl dehydroabietate 50 parts, precipitated calcium carbonate 54 parts, polyethers
Type polyurethane 50 parts, paraffin hydrocarbon ils 54 parts, o-cresol formaldehyde epoxy resin 50 parts, trioctyl trimellitate (TOTM) 54 parts, Oleum Ricini 50 parts,
Nano imvite 54 parts.
4. according to the insulation acid and alkali-resistance flame-proof cable material of the communication described in claims 1 to 3, it is characterised in that: described communication
It is made up of the component of following mass fraction with insulation acid and alkali-resistance flame-proof cable material: 54 parts of cobalt aluminate powder, acrylic acid methyl ester. 56
Part, Triallyl isocyanurate 52 parts, polyolefin elastomer 56 parts, rosin resin 52 parts, Brazil wax 56 parts, wollastonite
52 parts of powder, O-phthalic ester 58 parts, polyvinyl chloride resin 52 parts, Corvic 56 parts, lead sulfate tribasic 52 parts, inclined benzene three
Acid three monooctyl ester 56 parts, Firebrake ZB 52 parts, esters of silicon acis coupling agent 56 parts, methyl dehydroabietate 52 parts, precipitated calcium carbonate 56 parts, polyethers
Type polyurethane 52 parts, paraffin hydrocarbon ils 56 parts, o-cresol formaldehyde epoxy resin 52 parts, trioctyl trimellitate (TOTM) about 56 parts, Oleum Ricini 52
Part, nano imvite 56 parts.
5. according to the insulation acid and alkali-resistance flame-proof cable material of the communication described in claim 1 or 4, it is characterised in that: described communication
As follows by insulation acid and alkali-resistance flame-proof cable material preparation method step:
(1) by the cobalt aluminate powder of described mass fraction, acrylic acid methyl ester., Triallyl isocyanurate, polyolefin elastomer,
Rosin resin, Brazil wax, wollastonite powder, O-phthalic ester, polyvinyl chloride resin, lead sulfate tribasic, tri trimellitate are pungent
Ester, Firebrake ZB, esters of silicon acis coupling agent, methyl dehydroabietate, precipitated calcium carbonate, EU, paraffin hydrocarbon ils, o-cresol formaldehyde
Epoxy resin, Oleum Ricini, nano imvite are mixed, ultrasonic high speed dispersion, and ultrasonic frequency is 20~40KHz, dispersion speed
Degree 5000~about 5400r/min, jitter time is 30~60min;
(2) adding the Corvic of described mass fraction, ultrasonic high speed dispersion, ultrasonic frequency is 20~35KHz, dispersion
Speed 4800~about 5200r/min, jitter time is 30~50min;
(3) adding the trioctyl trimellitate (TOTM) of described mass fraction, ultrasonic high speed dispersion, ultrasonic frequency is 20~30KHz, point
Dissipating speed 4600~about 4800r/min, jitter time is 20~40min;This product is prepared after mix homogeneously.
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Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105131476A (en) * | 2015-09-27 | 2015-12-09 | 龚灿锋 | Communication insulation acid-alkali-resisting flame-retardant cable material |
CN105585801A (en) * | 2016-03-04 | 2016-05-18 | 张琦 | Novel low-smoke flame-retardant PVC cable material and preparation method thereof |
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Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105131476A (en) * | 2015-09-27 | 2015-12-09 | 龚灿锋 | Communication insulation acid-alkali-resisting flame-retardant cable material |
CN105585801A (en) * | 2016-03-04 | 2016-05-18 | 张琦 | Novel low-smoke flame-retardant PVC cable material and preparation method thereof |
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