CN109233101A - A kind of heat-proof combustion-resistant polypropene composition and preparation method thereof - Google Patents

Abstract

The invention discloses a kind of heat-proof combustion-resistant polypropene compositions, by weight, including following part: 100 parts of acrylic resin；5-25 parts of bromide fire retardant；5-25 parts of phosphorus flame retardant；0.5-7 parts of fire retarding synergist of inorganic powdered filler and the compounding of inorganic compound containing zinc；Wherein, the dosage of inorganic powdered filler can be 0；Total dosage of bromide fire retardant and phosphorus flame retardant is 10-35 parts.The fire retarding synergist that the present invention is compounded by the way that bromide fire retardant, phosphorus flame retardant, inorganic powdered filler and inorganic compound containing zinc are added in acrylic resin, so that heat-proof combustion-resistant polypropene composition of the invention had many advantages, such as that flame retardant property is good, be not easy to be precipitated, heat resistance it is good, and flue gas discharges low, environmentally friendly, bromide fire retardant when burning and phosphorus flame retardant additive amount is few.

Description

A kind of heat-proof combustion-resistant polypropene composition and preparation method thereof

Technical field

The present invention relates to technical field of polymer materials, more particularly to a kind of heat-proof combustion-resistant polypropene composition and its system Preparation Method.

Background technique

Polypropylene becomes application the most because of its excellent comprehensive performance and good cost performance, wider machine-shaping conditions One of extensive general-purpose plastics.Polypropylene is typical red label goods, and limit oxygen index 17-18% easily burns, Self-extinguishment is unable to after fire, with being gradually increased for material safety requirements, polypropylene material must carry out flame-retardant modified.

Bromo- antimony fire retardant and halogen-free flame retardants are broadly divided into for polyacrylic fire retardant, existing flame-retardant modified poly- third In alkene material, in order to meet non-halogen requirement, need to select to add the fire retardant of phosphorous, nitrogen or its compound system.Make now Mainly there are phosphate, the Intumscent Flame Retardant System based on ammonium polyphosphate with most common phosphonium flame retardant and combinations thereof Deng.But the disadvantages of these flame-retardant systems are compared with the bromo- antimony compounding flame retardant of tradition, and that there are flame retarding efficiencies is low, easy precipitation, needs Addition is more than 30%, and there is also biggish limitations for extensive use.Bromide fire retardant itself is without flame retardant effect, therefore its is necessary It being used in compounding with antimony containing compounds, bromo- antimony fire retardant has many advantages, such as that flame retarding efficiency is higher, it is smaller to influence on physical property, Dosage 30% can reach the V0(2.0mm of UL-94) rank, but also big, poor heat resistance, easy precipitation etc. with smoke density when burning Disadvantage.

With the continuous improvement of downstream industry application demand, more and more products and security legislation wish that material can reach V-0 flame retardant rating, and smoke delivery as few as possible, and antimony can bring mineral resources for fire retardant as rare element Reduction, in part regulation (such as No. 65 bills of California, USA) by limitation use.

Summary of the invention

It is an object of the present invention to overcome the above technological deficiency, a kind of heat-proof combustion-resistant polypropene composition is provided, is had resistance to Heat, be not precipitated, good flame retardation effect, burning when smoke delivery is low, environmentally friendly, bromide fire retardant and phosphorus flame retardant additive amount are few etc. Advantage.

Another object of the present invention is to provide the preparation methods of above-mentioned heat-proof combustion-resistant polypropene composition.

The present invention is achieved by the following technical solutions:

A kind of heat-proof combustion-resistant polypropene composition, by weight, including following part:

100 parts of acrylic resin；

5-25 parts of bromide fire retardant；

5-25 parts of phosphorus flame retardant；

0.5-7 parts of fire retarding synergist of inorganic powdered filler and the compounding of inorganic compound containing zinc；

Wherein, the dosage of inorganic powdered filler can be 0；Total dosage of bromide fire retardant and phosphorus flame retardant is 10-35 parts.

Including following part preferably, by weight:

100 parts of acrylic resin；

6-18 parts of bromide fire retardant；

6-18 parts of phosphorus flame retardant；

1-3 parts of fire retarding synergist of inorganic powdered filler and the compounding of inorganic compound containing zinc；

Wherein, the dosage of inorganic powdered filler can be 0；Total dosage of bromide fire retardant and phosphorus flame retardant is 12-30 parts.

Heat-proof combustion-resistant polypropene composition of the invention does not include antimony containing compounds.

The compounding of the bromide fire retardant and phosphorus flame retardant compares for 2:1-1:3；Preferably, the bromide fire retardant Compare with the compounding of phosphorus flame retardant for 1:1-1:2.5.

Inorganic powdered filler and contain in the inorganic powdered filler and the fire retarding synergist of the compounding of inorganic compound containing zinc The compounding of zinc inorganic compound compares for 4:1-1:3；Preferably, it is 2 that the compounding of inorganic powdered filler and the inorganic compound containing zinc, which compares: 1-1:2。

The bromide fire retardant is selected from decabromodiphenylethane, three (tribromo neopentyl) phosphates, three (2,3- dibromos third Base) fulminuric acid ester, at least one of bis- (2,3- dibromopropyl) ethers of tetrabromo-bisphenol s；Preferably, it is selected from decabrominated dipheny second At least one of alkane, three (tribromo neopentyl) phosphates.

The phosphorus flame retardant in hypophosphite fire retardant, Quadrafos fire retardant, phosphate flame retardant extremely Few one kind；Preferably, at least one of hypophosphite fire retardant, Quadrafos fire retardant are selected from；The hypophosphites resistance Agent is fired in hypo-aluminum orthophosphate, calcium hypophosphite, dimethyl hypo-aluminum orthophosphate, diethyl hypo-aluminum orthophosphate, Methylethyl hypo-aluminum orthophosphate It is at least one；The Quadrafos fire retardant is selected from ammonium polyphosphate, melamine phosphate, melamine pyrophosphate, three At least one of poly cyanamid Quadrafos；The phosphate flame retardant is selected from resorcinol bis- (diphenyl phosphoesters), double Phenol A- bis- (diphenyl phosphoesters), oligomeric aryl phosphate ester are from least one of triphenyl phosphate.

The inorganic powdered filler is selected from kaolin, montmorillonite, clay, talcum powder, wollastonite, silica, neatly At least one of stone；The inorganic compound containing zinc in zinc borate, zinc stannate, zinc aluminate, zinc oxide at least one Kind.

It by weight, further include 0-1.5 parts of antioxidant, the antioxidant is selected from phenolic antioxidant, amine antioxygen Agent, phosphite ester antioxidant, half Hinered phenols antioxidant, calixarene kind antioxidant, in dilauryl thiodipropionate extremely Few one kind；By weight, further include 0-2 parts of processing aid, the processing aid be selected from low molecule lipid processing aid, At least one of the compound esters processing aid of metal soap processing aid, stearic acid, amides processing aid.

The polypropylene is selected from least one of homopolypropylene, copolymer polypropylene.

Above-mentioned heat-proof combustion-resistant polypropene composition preparation method, comprising the following steps: according to the proportion by acrylic resin, bromine Flame retardant, phosphorus flame retardant, inorganic powdered filler and inorganic compound containing zinc compounding fire retarding synergist, antioxidant weigh after It is added in high speed mixer and is uniformly mixed, the then melting extrusion at 180 DEG C -220 DEG C in double screw extruder is granulated, obtains To heat-proof combustion-resistant polypropene composition.

The invention has the following beneficial effects:

The present invention be added to special fire retardant systems (bromide fire retardant, phosphorus flame retardant and inorganic powdered filler and containing zinc without The fire retarding synergist of machine compound compounding), make heat-proof combustion-resistant polypropene composition of the invention that there is outstanding flame retardant property, resistance to Hot property, the advantages that smog is less, bromide fire retardant and phosphorus flame retardant additive amount are few when not being precipitated, burning.Resistance of the invention Agent system is fired, antimony containing compounds must be cooperated using the amount of smog when just can be reduced burning and reach by overcoming bromide fire retardant The prevailing paradigm of good flame retardant property, also, antimony element is free of, protection environment economizes on resources.

Specific embodiment

Further illustrate that the present invention, following embodiment are the preferable embodiment party of the present invention below by specific embodiment Formula, but embodiments of the present invention are not limited by following embodiments.

It is following raw material that embodiment is raw materials used with comparative example, but the present invention is not limited by following raw material:

Homopolypropylene: PP HP500N, CSPC；

Copolymer polypropylene: PP EP548R, CSPC；

Atactic copolymerized polypropene: PP J-570S, carefree chemistry；

Decabromodiphenylethane: Israel's Chemical Group；

Three (tribromo neopentyl) phosphates: Israel's Chemical Group；

TBC: three (2,3- dibromopropyl) fulminuric acid esters, Lianyungang Sea Water Chemical Co., Ltd.；

Hypo-aluminum orthophosphate: Shanghai Meilaipo Chemicals Co., Ltd.；

Melamine polyphosphate: fine chemistry industry studying and designing institute, Sichuan；

Triphenyl phosphate: phosphate ester flame retardants；

Zinc borate: Jinan Tai Xing Chemical Co., Ltd.；

Halogen-free flame retardants: without antimony containing compounds, German Budenheim company based on ammonium polyphosphate；

Other raw material sources are commercially available.

The preparation method of embodiment and comparative example polypropene composition: according to the proportion by acrylic resin, bromide fire retardant, Fire retarding synergist (or other fire retardants), the antioxidant of phosphorus flame retardant, inorganic powdered filler and the compounding of inorganic compound containing zinc It is added in high speed mixer and is uniformly mixed after weighing, the then melting extrusion at 180 DEG C -220 DEG C in double screw extruder is made Grain.

Each performance test methods:

(1) fire-retardant (3.2mm): according to UL94 standard, test bars are with a thickness of 3.2mm；

(2) fire-retardant (1.6mm): according to UL94 standard, test bars are with a thickness of 1.6mm；

(3) fire-retardant (0.8mm): according to UL94 standard, test bars are with a thickness of 0.8mm；

(4) smoke density grade test (SDR): according to the test method of GB/T 8627, test bars are with a thickness of 6.0mm；

(5) heat resistance is tested: compound being used in injection molding machine 220 DEG C of directly injection molding colour tables test 220 DEG C as target The heat stagnation stream color difference △ E value of colour table and target is molded after being kept for 30 minutes, △ E value is bigger, then heat resistance is poorer；

(6) resistance to precipitation performance test: the colour table prepared by compound is placed in 80 DEG C of water-baths and is kept for 168 hours, then by color Weighing is dried after plate surface cleaning, the boiling mass loss percentage of weight and initial weight after record drying, boiling quality damage It is bigger to lose percentage, then illustrates that resistance to precipitation performance is poorer.

Table 1: embodiment 1-17 each group distribution ratio (parts by weight) and each the performance test results

	Embodiment 1	Embodiment 2	Embodiment 3	Embodiment 4	Implement Example 5	Implement Example 6	Implement Example 7	Embodiment 8
									Homopolypropylene	100	100	100	100	100	100	100	-
Copolymer polypropylene	-	-	-	-	-	-	-	100
									Atactic copolymerized polypropene	-	-	-	-	-	-	-	-
Decabromodiphenylethane	23.3	20	16	12	8	6.9	6	12
									Hypo-aluminum orthophosphate	11.7	10	8	12	16	17.1	18	12
Montmorillonite	1	1	1	1	1	1	1	1
									Zinc borate	1	1	1	1	1	1	1	1
Antioxidant 1010	0.1	0.1	0.1	0.1	0.1	0.1	0.1	0.1
									Irgasfos 168	0.2	0.2	0.2	0.2	0.2	0.2	0.2	0.2
Fire-retardant (3.2mm)	V-0	V-0	V-0	V-0	V-0	V-0	V-0	V-0
									Fire-retardant (1.6mm)	V-0	V-0	V-0	V-0	V-0	V-0	V-0	V-0
Fire-retardant (0.8mm)	V-0	V-0	V-1	V-0	V-0	V-0	V-1	V-0
									SDR	52	48	42	38	36	33	30	40
△ E value	0.5	0.5	0.4	0.3	0.2	0.2	0.2	0.3
									Boiling mass loss percentage Than %	0.3	0.3	0.4	0.2	0.2	0.3	0.4	0.2

Continued 1

	Implement Example 9	Implement Example 10	Implement Example 11	Implement Example 12	Implement Example 13	Implement Example 14	Implement Example 15	Implement Example 16	Implement Example 17
										Homopolypropylene	-	100	100	100	100	100	100	100	100
Copolymer polypropylene	-	-	-	-	-	-	-	-	-
										Atactic copolymerized polypropene	100	-	-	-	-	-	-	-	-
Decabromodiphenylethane	12	12	12	12	12	12	12	12	12
										Hypo-aluminum orthophosphate	12	12	12	12	12	12	12	12	12
Montmorillonite	1	1.6	1.3	0.7	0.5	0.25	0.5	1.5	3.5
										Zinc borate	1	0.4	0.7	1.3	1.5	0.25	0.5	1.5	3.5
Antioxidant 1010	0.1	0.1	0.1	0.1	0.1	0.1	0.1	0.1	0.1
										Irgasfos 168	0.2	0.2	0.2	0.2	0.2	0.2	0.2	0.2	0.2
Fire-retardant (3.2mm)	V-0	V-0	V-0	V-0	V-0	V-0	V-0	V-0	V-0
										Fire-retardant (1.6mm)	V-0	V-0	V-0	V-0	V-0	V-0	V-0	V-0	V-0
Fire-retardant (0.8mm)	V-0	V-1	V-0	V-0	V-1	V-1	V-0	V-0	V-0
										SDR	40	42	40	41	41	42	41	37	36
△ E value	0.3	0.3	0.3	0.3	0.3	0.3	0.3	0.3	0.3
										Boiling mass loss hundred Divide ratio, %	0.2	0.2	0.2	0.2	0.2	0.4	0.2	0.2	0.4

Table 2: embodiment 18-23 each group distribution ratio (parts by weight) and each the performance test results

	Embodiment 18	Embodiment 19	Embodiment 20	Embodiment 21	Embodiment 22	Embodiment 23
							Homopolypropylene	100	100	100	100	100	100
Decabromodiphenylethane	12	12	-	-	12	12
							Three (tribromo neopentyl) phosphoric acid Ester	-	-	12	-	-	-
TBC	-	-	-	12	-	-
							Hypo-aluminum orthophosphate	-	-	12	12	12	12
Melamine polyphosphate	12	-	-	-	-	-
							Triphenyl phosphate	-	12	-	-	-	-
Zinc borate	1	1	1	1	1	2
							Montmorillonite	1	1	1	1	-	-
Clay	-	-	-	-	1	-
							Antioxidant 1010	0.1	0.1	0.1	0.1	0.1	0.1
Irgasfos 168	0.2	0.2	0.2	0.2	0.2	0.2
							Fire-retardant (3.2mm)	V-0	V-0	V-0	V-0	V-0	V-0
Fire-retardant (1.6mm)	V-0	V-0	V-0	V-0	V-0	V-0
							Fire-retardant (0.8mm)	V-0	V-1	V-0	V-0	V-0	V-0
SDR	41	42	40	40	41	39
							△ E value	0.3	0.6	0.4	0.7	0.3	0.3
Boiling mass loss percentage Than %	0.3	0.4	0.3	0.6	0.2	0.3

It is fire-retardant etc. from embodiment 1/2 as can be seen that the additive amount of bromide fire retardant and phosphorus flame retardant drops to 30 parts from 35 parts Grade is constant, smoke density decline；It can be seen that smoke density from embodiment 3-7 to decline, bromine with the rising of phosphorus flame retardant ratio Flame retardant property is good when the proportion of flame retardant and phosphorus flame retardant is 1:1-1:2.5, and heat resistance and resistance to precipitation performance are good； It can be seen that the fire retarding synergist inorganic powder when inorganic powdered filler and inorganic compound containing zinc compound from embodiment 4/10-13 The compounding of last filler and the inorganic compound containing zinc compares in 2:1-1:2, and flame retardant property is preferable；It can from embodiment 4/14-17 Out, the dosage rising flame retardant property of the fire retarding synergist compounded when inorganic powdered filler and inorganic compound containing zinc rises, cigarette is close Degree decline, when 1-3 part of dosage of the fire retarding synergist that inorganic powdered filler and inorganic compound containing zinc compound, flame retardant effect with Resistance to precipitation better performances；From embodiment 4/18/19 as can be seen that using hypophosphite fire retardant or Quadrafos fire retardant when ratio The flame retardant property of phosphate flame retardant, heat-resisting, resistance to precipitation better performances；From embodiment 4/20/21 as can be seen that using ten bromines two Than the heat-resisting and resistance to precipitation of three (2,3- dibromopropyl) fulminuric acid esters when vinylbenzene or three (tribromo neopentyl) phosphates It can get well；

Table 3: comparative example each group distribution ratio (parts by weight) and each the performance test results

	Comparative example 1	Comparative example 2	Comparative example 3	Comparative example 4	Comparative example 5	Comparative example 6
							Homopolypropylene	100	100	100	100	100	100
Decabromodiphenylethane	12	24	-	12	24	-
							Hypo-aluminum orthophosphate	12	-	24	12	-	-
Zinc borate	-	1	1	-	-	-
							Montmorillonite	-	1	1	-	-	-
Antimony oxide	-	-	-	2	2	-
							Halogen-free flame retardants	-	-	-	-	-	35
Antioxidant 1010	0.1	0.1	0.1	0.1	0.1	0.1
							Irgasfos 168	0.2	0.2	0.2	0.2	0.2	0.2
Fire-retardant (3.2mm)	V-2	NR	NR	V-0	V-2	V-0
							Fire-retardant (1.6mm)	NR	NR	NR	V-2	NR	V-0
Fire-retardant (0.8mm)	NR	NR	NR	NR	NR	V-2
							SDR	65	78	33	85	89	31
△ E value	0.8	1.1	0.3	0.6	1.2	2.0
							Boiling mass loss percentage, %	1.0	0.2	0.2	0.8	0.7	2.2

From embodiment 4 and comparative example 1 as can be seen that not adding the fire-retardant association that inorganic powdered filler and inorganic compound containing zinc compound When imitating agent, flame retardant effect is poor, smoke density is high, heat resistance and resistance to precipitation performance all decline very much；It can be seen that from comparative example 2 The fire retarding synergist collocation of bromide fire retardant and inorganic powdered filler and the compounding of inorganic compound containing zinc, flame retardant effect is used alone Difference, smoke density grade are high, heat resistance is poor；From comparative example 3 as can be seen that phosphorus flame retardant and inorganic powdered filler is used alone It arranges in pairs or groups with the fire retarding synergist of the compounding of inorganic compound containing zinc, flame retardant effect is poor；From embodiment 4 and comparative example 4 as can be seen that bromine Flame retardant, phosphorus flame retardant, antimony oxide compound system, flame retardant effect is poor, smoke density is high, and resistance to precipitation heat resistance is all It is poor；From comparative example 5 as can be seen that bromo- antimony compound flame retardant, under the additive amount, flame retardant effect is poor, smoke density is high, heat-resisting It is all poor with resistance to precipitation；From comparative example 6 as can be seen that using halogen-free flame retardants, although flame retardant property is good, smoke density grade is low, It is that its heat-resisting resistance to precipitation performance is all very poor.

Claims (10)

1. a kind of heat-proof combustion-resistant polypropene composition, which is characterized in that by weight, including following part:

100 parts of acrylic resin；

5-25 parts of bromide fire retardant；

5-25 parts of phosphorus flame retardant；

0.5-7 parts of fire retarding synergist of inorganic powdered filler and the compounding of inorganic compound containing zinc；

Wherein, the dosage of inorganic powdered filler can be 0；Total dosage of bromide fire retardant and phosphorus flame retardant is 10-35 parts.

2. heat-proof combustion-resistant polypropene composition according to claim 1, which is characterized in that by weight, including it is following Part:

100 parts of acrylic resin；

6-18 parts of bromide fire retardant；

6-18 parts of phosphorus flame retardant；

1-3 parts of fire retarding synergist of inorganic powdered filler and the compounding of inorganic compound containing zinc；

Wherein, the dosage of inorganic powdered filler can be 0；Total dosage of bromide fire retardant and phosphorus flame retardant is 12-30 parts.

3. heat-proof combustion-resistant polypropene composition according to claim 1 or 2, which is characterized in that the bromide fire retardant Compare with the compounding of phosphorus flame retardant for 2:1-1:3；Preferably, it is 1 that the compounding of the bromide fire retardant and phosphorus flame retardant, which compares: 1-1:2.5。

4. heat-proof combustion-resistant polypropene composition according to claim 1 or 2, which is characterized in that the inorganic powder is filled out It is 4 that the compounding of inorganic powdered filler and the inorganic compound containing zinc, which compares, in material and the fire retarding synergist of the compounding of inorganic compound containing zinc: 1-1:3；Preferably, the compounding of inorganic powdered filler and the inorganic compound containing zinc compares for 2:1-1:2.

5. heat-proof combustion-resistant polypropene composition according to claim 1 or 2, which is characterized in that the bromide fire retardant Selected from decabromodiphenylethane, three (tribromo neopentyl) phosphates, three (2,3- dibromopropyl) fulminuric acid esters, tetrabromo-bisphenol s At least one of bis- (2,3- dibromopropyl) ethers；Preferably, decabromodiphenylethane, three (tribromo neopentyl) phosphates are selected from At least one of.

6. heat-proof combustion-resistant polypropene composition according to claim 1 or 2, which is characterized in that the phosphorus flame retardant Selected from least one of hypophosphite fire retardant, Quadrafos fire retardant, phosphate flame retardant；Preferably, it is selected from hypophosphorous acid At least one of salt fire retardant, Quadrafos fire retardant；The hypophosphite fire retardant is selected from hypo-aluminum orthophosphate, hypophosphorous acid At least one of calcium, dimethyl hypo-aluminum orthophosphate, diethyl hypo-aluminum orthophosphate, Methylethyl hypo-aluminum orthophosphate；The Quadrafos Fire retardant in ammonium polyphosphate, melamine phosphate, melamine pyrophosphate, melamine polyphosphate at least one Kind；The phosphate flame retardant is selected from resorcinol bis- (diphenyl phosphoesters), bisphenol-A-bis- (diphenyl phosphoesters), oligomeric Aryl phosphate ester is from least one of triphenyl phosphate.

7. heat-proof combustion-resistant polypropene composition according to claim 1 or 2, which is characterized in that the inorganic powder is filled out Material is selected from least one of kaolin, montmorillonite, clay, talcum powder, wollastonite, silica, hydrotalcite；Described contains zinc Inorganic compound is selected from least one of zinc borate, zinc stannate, zinc aluminate, zinc oxide.

8. heat-proof combustion-resistant polypropene composition according to claim 1 or 2, which is characterized in that by weight, further include 0-1.5 parts of antioxidant, the antioxidant are selected from phenolic antioxidant, amine antioxidants, phosphite ester antioxidant, are partly obstructed At least one of phenolic antioxidant, calixarene kind antioxidant, dilauryl thiodipropionate；It by weight, further include 0-2 The processing aid of part, it is compound that the processing aid is selected from low molecule lipid processing aid, metal soap processing aid, stearic acid At least one of esters processing aid, amides processing aid.

9. heat-proof combustion-resistant polypropene composition according to claim 1 or 2, which is characterized in that the polypropylene is selected from At least one of homopolypropylene, copolymer polypropylene.

10. heat-proof combustion-resistant polypropene composition preparation method according to claim 8, which is characterized in that including following step It is rapid: according to the proportion to answer acrylic resin, bromide fire retardant, phosphorus flame retardant, inorganic powdered filler and inorganic compound containing zinc Fire retarding synergist, the antioxidant matched are added in high speed mixer after weighing and are uniformly mixed, then 180 in double screw extruder Melting extrusion at DEG C -220 DEG C is granulated, obtains heat-proof combustion-resistant polypropene composition.