CN105949671A - Ultraviolet-resistant flame-retardant optical cable material and preparation method thereof - Google Patents

Abstract

The invention discloses an ultraviolet-resistant flame-retardant optical cable material which is composed of the following raw materials in parts by weight: 0.6-1 part of 2-(2'-hydroxy-5'-tert-octylphenyl)benzotriazole, 100-130 parts of polyvinyl chloride, 20-27 parts of polystyrene, 3-4 parts of sodium hypophosphite monohydrate, 2-3 parts of polyformaldehyde, 0.2-0.3 part of 37-37% hydrochloric acid, 4-6 parts of chlorospirophosphate, 5-7 parts of aluminum chloride hexahydrate, 0.1-0.2 part of triethylamine, 10-12 parts of graphite powder, 4-6 parts of polyvinyl butyral resin, 0.1-0.3 part of magnesium oxide, 0.6-1 part of dimethyl chlorophthalate, 1-2 parts of calcium palmitate, 0.1-0.2 part of lauryldimethylamine oxide, 0.3-0.5 part of ethylene glycol monobutyl ether and 0.6-2 parts of aluminum dihydrogen phosphate. The ultraviolet-resistant flame-retardant optical cable material can perform the function of lowering the temperature of the combustion zone, and some phospho-oxygen free radicals and the like generated during pyrolysis can capture free radicals generated by polystyrene segment pyrolysis, thereby lowering the heat release value of the material.

Description

A kind of uvioresistant fire-retardant cable material and preparation method thereof

Technical field

The present invention relates to mass technical field, particularly relate to a kind of uvioresistant fire-retardant cable material and preparation method thereof.

Background technology

In recent years, nanotechnology causes in flame retardant area and pays close attention to widely, and research shows that nano material only needs less addition (generally less than 5%), it becomes possible to reach flame retardant effect the most significantly.Therefore, the preparation of anti-flaming nano composite material is ingredient important in field of fire-proof technology, the green grass or young crops of the most vast research worker.Laminated inorganic matter nano material is one of packing material most effectively in anti-flaming nano composite material, when laminated inorganic matter nano material is that nanoscale is dispersed in macromolecular material matrix, and it can significantly improve the mechanical property of nano composite material, heat stability and fire resistance etc..

Conventional layered inorganic nanoparticle has: phyllosilicate (wearing soil, Muscovitum etc.), layered double-hydroxide (LDH), layered metal phosphates, GO and graphite are dilute.Its layered silicates and layered double-hydroxide are owing to easily being peeled off by intercalation, thus can improve its dispersion in macromolecule matrix, and the nano composite material preparing gained can significantly improve heat stability and the anti-flammability of material, has the highest application prospect.Layered metal phosphates also has relevant report in flame retardant area, main research bedded zirconium phosphate and the impact on nano composite material combination property of the stratiform titanium phosphate.

Simultaneously, hypo-aluminum orthophosphate is as one of more efficient fire retardant in engineering plastics in recent years, it can produce hydrogen phosphide and relatively stable pyrophosphate condensed phase residue when cracking, can remarkably promote macromolecule matrix becomes charcoal to stop the further burning of material, thus promotes the fire resistance of macromolecule matrix.Research shows, hypo-aluminum orthophosphate is widely used in the fire-retardant of the macromolecular materials such as ethylene glycol terephthalate, mutual-phenenyl two acid bromide two alcohol ester, polylactic acid, polyvinyl alcohol and polyamide, and can reach good effect in commercial Application.Therefore, the preparation organic trick of stratiform both can play the iris action of stratiform lamella, can produce, during its cracking, the compound promoting that polymer becomes charcoal simultaneously, and its resultant effect can be effectively improved fire resistance and the heat stability of nano composite material；

The more also material such as double-hydroxide (LDH) and graphite refining is studied in lamellar compound/flame-retardant polystyrene nano-composite material field.Research shows that the LDH of modification can be significantly increased the heat stability of composite with in good condition being dispersed in polystyrene matrix peeled off, and owing to lamella iris action can reduce peak heat release and the total heat release of material, improves the fire safety evaluating performance of material.

But substantial amounts of interpolation result in the phenomenon that modified particle occurs reuniting in matrix resin, can affect the combination property of polystyrene.In addition, the nano material such as carbon nanotube, metal oxide nano-wire and metal oxide nanoparticles can promote the polystyrene nano composite material catalysis carbon-forming when burning, thus improves the fire resistance of material.Therefore, research nanometer composite technology has important scientific meaning to impact and the fire retardant mechanism thereof of the fire resistance of polystyrene.

Summary of the invention

The object of the invention is contemplated to make up the defect of prior art, it is provided that a kind of uvioresistant fire-retardant cable material and preparation method thereof.

The present invention is achieved by the following technical solutions:

A kind of uvioresistant fire-retardant cable material, it is made up of the raw material of following weight parts:

2-(2'-hydroxyl-5'-t-octyl phenyl) benzotriazole 0.6-1, polrvinyl chloride 100-130, polystyrene 20-2 mono-waterside sodium phosphate 3-4, paraformaldehyde 2-3, the hydrochloric acid 0.2-0.3 of 35-37%, dichloropentate 4-6, Aluminium chloride hexahydrate 5-7, triethylamine 0.1-0.2, graphite powder 10-12, polyvinyl butyral resin ester 4-6, magnesium oxide 0.1-0.3, chlorine dimethyl phthalate 0.6-1, calcium palmitate 1-2, lauryl dimethyl amine oxide 0.1-0.2, ethylene glycol monobutyl ether 0.3-0.5, aluminium dihydrogen phosphate 0.6-2.

The preparation method of a kind of described uvioresistant fire-retardant cable material, comprises the following steps:

(1) an above-mentioned waterside sodium phosphate is taken; join in the deionized water of its weight 50-70 times; stir, send in the water bath with thermostatic control of 76-80 DEG C, be slowly added to above-mentioned paraformaldehyde; the hydrochloric acid of above-mentioned 35-37% is added under stirring condition; insulated and stirred 8-9 hour under nitrogen protection, discharging cools down, sucking filtration; it will be vacuum dried 10-12 hour at being deposited in 80-85 DEG C, obtains hydroxyalkylation phosphinic acid；

(2) above-mentioned hydroxyalkylation phosphinic acid are joined in the oxolane of its weight 40-50 times, stir, obtain the tetrahydrofuran solution of organic phosphoric acid；

(3) by above-mentioned dichloropentate, triethylamine mixing; join in the oxolane of compound weight 70-80 times; rise high-temperature and be 37-40 DEG C; insulated and stirred 20-30 minute, mixes with the tetrahydrofuran solution of above-mentioned organic phosphoric acid, rises high-temperature and is 60-65 DEG C; insulated and stirred 20-21 hour under nitrogen protection; it is filtered to remove precipitation, filtrate reduced in volume is removed oxolane, obtain polymerization organic phospho acid；

(4) by above-mentioned calcium palmitate, lauryl dimethyl amine oxide mixing, join in the deionized water of compound weight 10-13 times, stir, obtain calcium emulsion；

(5) above-mentioned Aluminium chloride hexahydrate is joined in the deionized water of its weight 20-30 times, stir；

(6) take above-mentioned polymerization organic phospho acid, join in the deionized water of its weight 70-80 times, stir, dropping acetic acid or sodium hydroxide, regulation pH is 4-5, rises high-temperature and is 80-85 DEG C, drip the aqueous solution of above-mentioned Aluminium chloride hexahydrate, after dropping, add above-mentioned calcium emulsion, insulated and stirred 6-7 hour, add above-mentioned aluminium dihydrogen phosphate, stir, sucking filtration, filter cake is washed 3-4 time, it is vacuum dried 30-40 minute at 50-60 DEG C, obtains organic layer phosphonic acids aluminum；

(7) above-mentioned chlorine dimethyl phthalate is joined in the toluene of its weight 14-20 times, add ethylene glycol monobutyl ether, stir, obtain toluene emulsion；

(8) above-mentioned organic layer phosphonic acids aluminum is taken, join in the toluene of its weight 70-80 times, add above-mentioned 2-(2'-hydroxyl-5'-t-octyl phenyl) benzotriazole, ultrasonic 20-30 minute, add polystyrene, continue ultrasonic 10-14 minute, rise high-temperature and be 57-60 DEG C, add above-mentioned toluene emulsion, insulated and stirred 1.5-2 hour, drying under reduced pressure, obtains described compounded mix；

(9) above-mentioned compounded mix is mixed with remaining each raw material, stir, send into extruder, through melt extruding, cooling, pelletize, obtain described mass.

The invention have the advantage that to add the organic layer phosphonic acids aluminum of the present invention to and polystyrene is prepared fire proofing, due to special laminar structured of stratiform organic aluminum phosphate, it disperses in macromolecule matrix uniformly, lamella iris action is effectively played when burning occurs, stop the entrance of extraneous fuel, the chain degradation process of suppression macromolecule matrix, some components such as C02 produced when it is heated pyrolysis, CO, the gases such as phosphorus-containing compound, they can play dilution flame, reduce the effect of combustion zone temperature, and cracking time produce some phosphorus oxygen free radicals etc. can capture polystyrene segment cracking produce free radical, Improve heat decomposition temperature and the neat coal amout of material, promote the heat stability of material, the continuation degraded of termination material, reduces the hot release value of material.Simultaneously, organic layer phosphonic acids aluminum also can promote, when degraded, the fine and close layer of charcoal that copolymer generating portion is stable, thus reduce the degradation rate of polymeric matrix and therefore inhibit the entrance of imflammable gas, slow down proceeding of burning, improve the fire safety of material.The mass of the present invention has good uvioresistant performance, is particularly suitable for outdoor optical cable and uses, and service life is long, good stability.

Detailed description of the invention

A kind of uvioresistant fire-retardant cable material, it is made up of the raw material of following weight parts:

2 (2' hydroxyl ' t-octyl phenyl) benzotriazole 0.6, polrvinyl chloride 100, polystyrene 20 1 waterside sodium phosphate 3, the hydrochloric acid 0.2 of paraformaldehyde 2,35%, dichloropentate 4, Aluminium chloride hexahydrate 5, triethylamine 0.1, graphite powder 10, polyvinyl butyral resin ester 4, magnesium oxide 0.1, chlorine dimethyl phthalate 0.6, calcium palmitate 1, lauryl dimethyl amine oxide 0.1, ethylene glycol monobutyl ether 0.3, aluminium dihydrogen phosphate 0.6.

The preparation method of a kind of described uvioresistant fire-retardant cable material, comprises the following steps:

(1) an above-mentioned waterside sodium phosphate is taken; join in the deionized water of its weight 50 times; stir, send in the water bath with thermostatic control of 76 DEG C, be slowly added to above-mentioned paraformaldehyde; the hydrochloric acid of above-mentioned 35% is added under stirring condition; insulated and stirred 8 hours under nitrogen protection, discharging cools down, sucking filtration; vacuum drying 10 hours will be deposited at 80 DEG C, obtain hydroxyalkylation phosphinic acid；

(2) above-mentioned hydroxyalkylation phosphinic acid are joined in the oxolane of its weight 40 times, stir, obtain the tetrahydrofuran solution of organic phosphoric acid；

(3) by above-mentioned dichloropentate, triethylamine mixing; join in the oxolane of compound weight 70 times; rising high-temperature is 37 DEG C; insulated and stirred 20 minutes, mixes with the tetrahydrofuran solution of above-mentioned organic phosphoric acid, and rising high-temperature is 60 DEG C; insulated and stirred 20 hours under nitrogen protection; it is filtered to remove precipitation, filtrate reduced in volume is removed oxolane, obtain polymerization organic phospho acid；

(4) by above-mentioned calcium palmitate, lauryl dimethyl amine oxide mixing, join in the deionized water of compound weight 10 times, stir, obtain calcium emulsion；

(5) above-mentioned Aluminium chloride hexahydrate is joined in the deionized water of its weight 20 times, stir；

(6) take above-mentioned polymerization organic phospho acid, join in the deionized water of its weight 70 times, stir, dropping acetic acid or sodium hydroxide, regulation pH is 4, and rising high-temperature is 80 DEG C, drip the aqueous solution of above-mentioned Aluminium chloride hexahydrate, after dropping, add above-mentioned calcium emulsion, insulated and stirred 6 hours, add above-mentioned aluminium dihydrogen phosphate, stir, sucking filtration, filter cake is washed 3 times, it is vacuum dried 30 minutes at 50 DEG C, obtains organic layer phosphonic acids aluminum；

(7) above-mentioned chlorine dimethyl phthalate is joined in the toluene of its weight 14 times, add ethylene glycol monobutyl ether, stir, obtain toluene emulsion；

(8) above-mentioned organic layer phosphonic acids aluminum is taken, join in the toluene of its weight 70 times, add above-mentioned 2 (2' hydroxyl ' t-octyl phenyl) benzotriazole, ultrasonic 20 minutes, add polystyrene, continue ultrasonic 10 minutes, rising high-temperature is 57 DEG C, adds above-mentioned toluene emulsion, insulated and stirred 1.5 hours, drying under reduced pressure, obtains described compounded mix；

(9) above-mentioned compounded mix is mixed with remaining each raw material, stir, send into extruder, through melt extruding, cooling, pelletize, obtain described mass.

Performance test:

Hot strength: 19.6 MPa；

Low temperature brittleness impact temperature (DEG C) :-30 DEG C are passed through；

Fire-retardant rank: V-0；

After 100 DEG C × 240h hot air aging: hot strength rate of change (%)-7.6；

Extension at break rate of change (%)-8.0.

Claims (2)

1. a uvioresistant fire-retardant cable material, it is characterised in that it is made up of the raw material of following weight parts:

2-(2'-hydroxyl-5'-t-octyl phenyl) benzotriazole 0.6-1, polrvinyl chloride 100-130, polystyrene 20-27, one waterside sodium phosphate 3-4, paraformaldehyde 2-3, the hydrochloric acid 0.2-0.3 of 35-37%, dichloropentate 4-6, Aluminium chloride hexahydrate 5-7, triethylamine 0.1-0.2, graphite powder 10-12, polyvinyl butyral resin ester 4-6, magnesium oxide 0.1-0.3, chlorine dimethyl phthalate 0.6-1, calcium palmitate 1-2, lauryl dimethyl amine oxide 0.1-0.2, ethylene glycol monobutyl ether 0.3-0.5, aluminium dihydrogen phosphate 0.6-2.

2. the preparation method of a uvioresistant fire-retardant cable material as claimed in claim 1, it is characterised in that comprise the following steps:

(1) an above-mentioned waterside sodium phosphate is taken; join in the deionized water of its weight 50-70 times; stir, send in the water bath with thermostatic control of 76-80 DEG C, be slowly added to above-mentioned paraformaldehyde; the hydrochloric acid of above-mentioned 35-37% is added under stirring condition; insulated and stirred 8-9 hour under nitrogen protection, discharging cools down, sucking filtration; it will be vacuum dried 10-12 hour at being deposited in 80-85 DEG C, obtains hydroxyalkylation phosphinic acid；

(2) above-mentioned hydroxyalkylation phosphinic acid are joined in the oxolane of its weight 40-50 times, stir, obtain the tetrahydrofuran solution of organic phosphoric acid；

(3) by above-mentioned dichloropentate, triethylamine mixing; join in the oxolane of compound weight 70-80 times; rise high-temperature and be 37-40 DEG C; insulated and stirred 20-30 minute, mixes with the tetrahydrofuran solution of above-mentioned organic phosphoric acid, rises high-temperature and is 60-65 DEG C; insulated and stirred 20-21 hour under nitrogen protection; it is filtered to remove precipitation, filtrate reduced in volume is removed oxolane, obtain polymerization organic phospho acid；

(4) by above-mentioned calcium palmitate, lauryl dimethyl amine oxide mixing, join in the deionized water of compound weight 10-13 times, stir, obtain calcium emulsion；

(5) above-mentioned Aluminium chloride hexahydrate is joined in the deionized water of its weight 20-30 times, stir；

(6) take above-mentioned polymerization organic phospho acid, join in the deionized water of its weight 70-80 times, stir, dropping acetic acid or sodium hydroxide, regulation pH is 4-5, rises high-temperature and is 80-85 DEG C, drip the aqueous solution of above-mentioned Aluminium chloride hexahydrate, after dropping, add above-mentioned calcium emulsion, insulated and stirred 6-7 hour, add above-mentioned aluminium dihydrogen phosphate, stir, sucking filtration, filter cake is washed 3-4 time, it is vacuum dried 30-40 minute at 50-60 DEG C, obtains organic layer phosphonic acids aluminum；

(7) above-mentioned chlorine dimethyl phthalate is joined in the toluene of its weight 14-20 times, add ethylene glycol monobutyl ether, stir, obtain toluene emulsion；

(8) above-mentioned organic layer phosphonic acids aluminum is taken, join in the toluene of its weight 70-80 times, add above-mentioned 2-(2'-hydroxyl-5'-t-octyl phenyl) benzotriazole, ultrasonic 20-30 minute, add polystyrene, continue ultrasonic 10-14 minute, rise high-temperature and be 57-60 DEG C, add above-mentioned toluene emulsion, insulated and stirred 1.5-2 hour, drying under reduced pressure, obtains described compounded mix；

(9) above-mentioned compounded mix is mixed with remaining each raw material, stir, send into extruder, through melt extruding, cooling, pelletize, obtain described mass.