CN1175267A

CN1175267A - Crystalline polyolefin resin composition and electrical insulation parts made from said composition

Info

Publication number: CN1175267A
Application number: CN 95197651
Authority: CN
Inventors: 大本弘美; 东原光宏
Original assignee: Chisso Corp
Current assignee: JNC Corp
Priority date: 1995-02-16
Filing date: 1995-02-16
Publication date: 1998-03-04
Anticipated expiration: 2015-02-16
Also published as: CN1070210C

Abstract

A crystalline polyolefin resin composition comprising 40-85 wt.% of a crystalline propylene polymer, 3-40 wt.% of an inorganic filler, 7-30 wt.% of a halogan-containig flame-retardant comprising ethylenebistetrabromophthalimide, decabromodiphenylethane or a mixture thereof, and 3-15 wt.% of a flame-retardant aid, and electrical insulation parts produced by molding the compsotion. This composition can prevent the occurence of bleeding to the surface of a mold during injection molding, does not cause any deterioration of the apparance of molded article due to the transfe of bleeding ingreients to the mold, and can prevent productivity lowering due to the necessity for wiping off the bleeding ingredients. In addition to these bleeding-related features, the compositions satisfactory in all of the mechanical properties including tensile strength and modulus of elasticity in bleeding, electrical properties, prevention of bleeding to the product surface, produce appearance, and flame ......

Description

Crystalline polyolefin resin composition and the electrical insulation parts that makes by said composition

Invention field

The present invention relates to the crystalline polyolefin resin composition.More specifically, the present invention relates to by blend crystaline polypropylene polymer resin and mineral filler, the crystalline polyolefin resin composition that halogen-containing flame retardant, flame retardant obtain is preferably used for electrical insulation parts, as the separator of deflector coil.

Background of invention

Before this, the deflector coil separator is used for domestic television set and graphoscope.The used material as separator has, (1) Noryl (after this referring to MODIFIED PP O), (2) blend has the polybutylene terephthalate resin (referring to that after this blend has the PBT of fire retardant and glass fibre) of fire retardant and glass fibre and the acrylic resin that (3) blend has talcum and fire retardant.

The cost height that the shortcoming of MODIFIED PP O is the finished product, this productivity during based on the cost of material and molding, however it is widely used as the raw material of the deflector coil separator of domestic television set and graphoscope.

It is that anti-electric leakage property is poor that blend has the shortcoming of the PBT of fire retardant and glass fibre.If anti-electric leakage property is poor, then when used as television during in high temperature and high humidity environment, make moist and the outside surface of deflector coil separator that is coated with dust by small discharge partly by charing, cause electricity to stay, thereby produce relatively poor insulativity.The deterioration of this anti-electric leakage is that the molecular structure by the material therefor resin causes.For example, because the key in the phenyl ring between carbon atom is very strong, the resin that intramolecularly has a phenyl ring as PBT is difficult to be gasified by the heat energy that fine discharge produced, and the free carbon atom in the graphite-structure keeps from the teeth outwards, cause easy formation electricity to stay, reduced anti-electric leakage thus.On the other hand, acrylic resin is not because its intramolecularly has phenyl ring, thereby anti-electric leakage property is fairly good.In view of the above, consider that from the angle of anti-electric leakage property acrylic resin is suitable for doing the raw material of deflector coil separator most.

Blend has the acrylic resin of talcum and fire retardant can improve the anti-electric leakage of the PBT that above-mentioned blend has fire retardant and glass fibre.In this material, halogen-containing flame retardant, decabrominated dipheny base ether, ten dichloros, ten dihydro dimethylene dibenzo dichloro octenes, or their mixture is used as fire retardant.

Yet because the use of halogen-containing flame retardant, their problem is that mechanical property (tensile strength) has reduced.And when they at high temperature used, flame retardant resistance reduced and owing to fire retardant frosting (separation phenomenon is like powder-form, on the surface of the finished product), the outward appearance of the finished product worsens.Especially, when the deflector coil separator has the polypropylene resin composite injection molding of talcum and fire retardant by blend, above-mentioned halogen-containing flame retardant is frosting (separation phenomenon on mould, like powder-form, surface at mould), what run off is attached to the surface that component on the die surface has just been transferred to moulded parts, so the outward appearance of deflector coil separator worsens.In addition, owing to produce discontinuously, productivity sharply reduces, and need wipe the fire retardant that oozes out to obtain the good the finished product of outward appearance.

Yet ethylene-vinyl acetate copolymer (EVA) commonly used, aliphatic carboxylic acid, or the aliphatic carboxylate overcomes above-mentioned bleed phenomenon as additive reduces and the cost of material improves but the problem that exists is a mechanical property (rigidity).

The objective of the invention is to solve above-mentioned prior art problems, be provided at cost, the each side of mouldability, mechanical property (tensile strength and rigidity), shock resistance reaches equilibrated crystalline polyolefin resin composition on electrical property and the flame retardant resistance, and can prevent the insufficient generation of moulded parts outward appearance, when for example the acrylic resin that talcum and fire retardant is arranged when blend is by molding, the deflector coil separator that obtains to the mould owing to fire retardant seepage flow, and can overcome the reduction of productivity; And provide the electrical insulation parts that contains said composition.

Summary of the invention

For preventing that fire retardant seepage flow is to mould when the injection molding, present inventor's result of study is found, by using ethylenebis tetrabromo phthalimide and/or decabrominated dipheny base ethane as halogen-containing flame retardant, can significantly improve the seepage flow of fire retardant on mould, thereby cause realization of the present invention.

It is that the application's claimed invention is as follows: (1) a kind of crystalline polyolefin resin composition; blend has the crystalline propene polymer of 40～85wt.%; the mineral filler of 3～40wt.%; 7～30wt.% comprises the halogen-containing flame retardant of ethylenebis tetrabromo phthalimide and decabrominated dipheny base ethane or their mixture, and the flame retardant of 3～15wt.%.(2) the crystalline polyolefin resin composition of above-mentioned (1), wherein crystalline propene polymer is an alfon or a propylene-ethylene copolymers.(3) the crystalline polyolefin resin composition of above-mentioned (2), wherein the melt flow rate of alfon is 1.0 to 80g/10 minutes.(4) the crystalline polyolefin resin composition of above-mentioned (2), wherein propylene-ethylene copolymers contains the ethene of 2～35wt.%, and its melt flow rate is 1.0 to 40g/10 minutes.(5) each crystalline polyolefin resin composition of above-mentioned (1) to (4), wherein mineral filler is a talcum, mica, silicon-dioxide, lime carbonate, barium sulfate, or glass fibre.(6) each crystalline polyolefin resin composition of above-mentioned (1) to (5), wherein flame retardant is a kind of antimony compounds or boron compound.(7) a kind of electrical insulation parts obtains by each defined crystalline polyolefin resin composition of molding above-mentioned (1) to (6).

As the crystalline propene polymer that uses in the present invention, the melt flow rate of preferred crystalline propylene homopolymer is (under MFR:235 ℃, apply 2.16Kg load, the amount of the molten resin of being extruded in 10 minutes) is 1.0 to 80g/10 minutes, crystalline polypropylene-ethylene copolymer, the ethene that contains 2～35wt.%, melt flow rate are 1.0 to 40g/10 minutes.Especially when using propylene-ethylene copolymers, preferred crystalline polypropylene-ethylene block copolymer.Consider that from the viewpoint of mechanical property the amount for the treatment of the crystalline propene polymer of blend is 40 to 85wt.%, is preferably 50 to 60wt.%.

Multipolymer is modified polyolefin resin for example, polyethylene, and propylene-ethylene copolymers, and polybutene can use when needing.Modified polyolefin resin can obtain with mediating these polyolefin resines and a unsaturated carboxylic acid or its acid anhydrides (for example, maleic anhydride) by fusion in the presence of organo-peroxide.For example, modified poly ethylene, the modified propylene homopolymer, modified propylene-ethylene copolymer and modification polybutene can be enumerated as modified polyolefin resin, and especially modified propylene-ethylene copolymer is preferred.Based on the amount of crystalline propene polymer, treat that the amount of these resins of blend is preferably 3 to 8wt.%.

Used mineral filler is not subjected to limit especially on size of particles among the present invention.And commodity in use mineral filler that can get, that use for thermoplastic resin is promptly enough usually, preferably has the filler of big L/D ratio.That more specifically, mentions has talcum, mica, silicon-dioxide, lime carbonate, barium sulfate, and glass fibre.Can not use although filler is processed, be to improve its adhesivity or dispersiveness in matrix resin, also can use particle surface to be covered with a kind of different types of organic titanate class coupling agent, silane coupling agent, lipid acid, the metal-salt of lipid acid, the filler of fatty acid ester.The amount of the mineral filler of blend is 3 to 40wt.%, is preferably 5 to 25wt.%.When its amount during less than 3wt.%, just very little to the effect of the raising of gained layered product mechanical property (tensile strength and rigidity), but when its during above 40wt.%, the shock strength of layered product just reduces.

Being used for halogen-containing flame retardant of the present invention is decabrominated dipheny base ethane, ethylenebis tetrabromo phthalimide or its mixture.The fusing point of these halogen-containing flame retardants is greater than 200 ℃, and fabulous on the bleed characteristic of product and mould during molding.Especially, consider preferred decabrominated dipheny base ethane from shock resistance.The amount for the treatment of the halogen-containing flame retardant of blend is 7 to 30wt.%, is preferably 10 to 25wt.%.When the amount of blend less than 7% the time, can not obtain the desired flame retardant resistance of molding particle by the resin combination that uses gained.When its amount surpassed 30%, the graininess that becomes by the mechanical property (tensile strength) of the molding particle of resin combination gained during with shock resistance and resin combination granulation all can worsen.

As the flame retardant that the present invention uses, that mentions has antimony compounds for example ANTIMONY TRIOXIDE SB 203 99.8 PCT and boron compound such as zinc borate and a borax.Consider that from the angle of flame retardant resistance the amount for the treatment of the flame retardant of blend is 3 to 15wt.%, be preferably the halogen-containing flame retardant of use heavy 1/4 to 1/2.

When needs, except that the above-mentioned component of mentioning, also can add tinting material such as dyestuff and pigment in the resin combination of the present invention, nucleator, lubricant, antioxidant, thermo-stabilizer, photostabilizer, releasing agent, crosslinking coagent, radical-forming agent, and whipping agent.

Because the method for production resin combination of the present invention is not limited especially, can implement like this, for example, in stirrer and mixing machine such as Henschel mixing machine or super mixing machine, introduce above-mentioned crystalline propene polymer resin, a kind of mineral filler of specified quantitative, halogen-containing flame retardant, and flame retardant stir and made its mixing in 30 seconds to 3 minutes, use Banbury mixer, roller, or forcing machine fusion and mediate the mixture of gained, granulation then.The temperature of fusion and kneading, more is contemplated to be at 200 to 250 ℃ by preferred 180 to 280 ℃.

Implement best mode of the present invention

Now, by embodiment and Comparative Examples the present invention is specifically described.Yet, should understand like this, i.e. the present invention is not subjected to the restriction of these embodiment.Various tests in embodiment and the Comparative Examples are undertaken by following method: 1) mechanical property

Mechanical property (tensile strength and rigidity) is estimated by measuring tensile strength (by JIS K-7113) and bending elastic modulus (by JIS K-7203).2) shock resistance

Shock resistance is estimated by measuring cantilever fine strain of millet formula shock strength (by JIS K-7110).3) electrical property

Electrical property is estimated by measuring arc resistance (by ASTM D-495).4) the bleed performance of the finished product

The print of one 50 * 50 * 2mm that will be by injection molding preparation in baking oven in 100 ℃ place 240 hours after, its outward appearance detects by an unaided eye.There have the product of bleed to be decided to be to be poor, and the product of no bleed is decided to be.5) the bleed performance on the mould

Use be the print of 100 * 50 * 2mm and the mould of usefulness carry out 100 times injection-molded, the surface of the mould that detects by an unaided eye.There have the situation of bleed to be decided to be to be poor, and the situation of no bleed is decided to be.6) outward appearance of the finished product

After the print of one 100 * 50 * 2mm is carried out 100 injection molding, the surface of the print that detects by an unaided eye.There have the print that migrates to the bleed component on it from mould to be decided to be to be poor, do not have being decided to be of moving out.7) flame retardant resistance

Prepare the print of one 127 * 12.7 * 1.6mm with injection molding, by implementing by U.S. UL standard, the testing vertical flammability of Subject 94 (UL 94) definition is estimated flame retardant resistance with it.Embodiment 1 to 24, Comparative Examples 1 to 12

In embodiment 1 to 24 and Comparative Examples 1 to 24, with a melt flow rate is that a crystalline propylene homopolymer resin (hereinafter being sometimes referred to as the PP homopolymer) of 5g/10 minute or a melt flow rate are that 5g/10 minute and ethylene content are crystalline polypropylene-ethylene block copolymer resin (hereinafter being sometimes referred to as the PP segmented copolymer) of 8.5wt%, with the talcum of each next specified amount of situation as mineral filler, ethylenebis tetrabromo phthalimide (trade(brand)name: Saytex BT93; Albemarle Corp. makes) or decabrominated dipheny base ethane (trade(brand)name: Saytex 8010, Albemarle Corp. makes) as fire retardant, and ANTIMONY TRIOXIDE SB 203 99.8 PCT is as flame retardant (as described in following table 1 and 2), join Henschel mixing machine (Mitsui Miike KaKo Co., Ltd. make) in, mixing in 1 minute stirred.

The mixture that obtains is thus carried out fusion and kneading under 230 ℃ of fusions-kneading temperature, be that the twin screw extruder of 30mm is extruded with port mould diameter, and granulation.

Equally, in Comparative Examples 1～12, press embodiment 1～12, the blend components of each situation specified amount is mixed on Henschel mixing machine and rotary drum, different is with decabrominated dipheny base ether (trade(brand)name: Saytex 102R; Albemarle Corp. makes) as halogen-containing flame retardant, be described in table 3 below, and carry out fusion, mediate, be that the twin screw extruder of 30mm is extruded with port mould diameter, and granulation.

Then, 250 ℃ of resin temperatures, under 50 ℃ of the die temperatures, carry out injection molding, be molded as the print of regulation shape with the sheet material of each embodiment and Comparative Examples gained, and carry out mechanical property (tensile strength and bending elastic modulus), electrical property (arc resistance), the bleed performance of the finished product, the bleed performance on the mould, the outward appearance of the finished product, and the evaluation of flame retardant resistance.The results are shown in table 1 in 3.

Be clear that to 3 by table 1, in embodiment 1 to 24, the layered product that obtains with resin combination of the present invention is in for example mechanical property (tensile strength and bending elastic modulus), shock resistance, electrical property (arc resistance), the bleed performance of the finished product, the bleed performance on the mould, the outward appearance of the finished product, and reached splendid balance between the characteristic such as flame retardant resistance.Especially, the shortcoming of decabrominated dipheny base ether during as fire retardant, promptly the bleed performance on the mould and the appearance poor of the finished product can be resolved by using ethylenebis tetrabromo phthalimide or decabrominated dipheny base ethane.

From embodiment 1 to 6 and 13 to 18 with the comparison of Comparative Examples 1 to 6 can clearly be seen that, when matrix polymer is crystalline propylene homopolymer, as halogen-containing flame retardant, the bleed phenomenon of the finished product takes place then with decabrominated dipheny base ether.Yet find that this problem can be resolved by using ethylenebis tetrabromo phthalimide or decabrominated dipheny base ethane.

Further, used the ethylenebis tetrabromo phthalimide among the embodiment 1 to 12, used decabrominated dipheny base ethane among the embodiment 13 to 24, respectively as halogen-containing flame retardant, from their comparison, can be clear that, from the fire retardant angle, when using decabrominated dipheny base ethane, shock resistance is better.

Table 1

Embodiment	????1	????2	????3	????4	????5	????6
Embodiment	????1	????2	????3	????4	????5	????6	(weight percent) PP homopolymer PP segmented copolymer talcum ethylenebis tetrabromo phthalimide ANTIMONY TRIOXIDE SB 203 99.8 PCT is formed in blend	? ???80 ????0 ????5 ???10 ????5	? ???75 ????0 ???10 ???10 ????5	? ???70 ????0 ???15 ???10 ????5	? ???63 ????0 ???15 ???15 ????7	? ???53 ????0 ???15 ???25 ????7	? ???65 ????0 ???20 ???10 ????5
Tensile strength (kgf/cm ²) bending elastic modulus (kgf/cm ²) cantilever fine strain of millet formula shock strength (kgf.cm/cm ²) (100 ℃ of the bleed performances of arc resistance (sec) the finished product, 240 hours) outward appearance of bleed performance (injection molding is through 100 injection backs) the finished product on the mould (injection molding through 100 times inject after) incendivity (UL94 normal beam technique, 1.6mm, group)	360 24,000 4.2 110 good carefully v-2	350 27,000 4.0 105 good carefully v-2	350 30,000 3.7 100 good carefully v-2	320 33,000 3.5 75 good carefully v-1	330 35,000 3.0 70 good carefully v-0	320 34,000 3.3 75 good carefully v-2		? ???80 ????0 ????5 ???10 ????5	? ???75 ????0 ???10 ???10 ????5	? ???70 ????0 ???15 ???10 ????5	? ???63 ????0 ???15 ???15 ????7	? ???53 ????0 ???15 ???25 ????7	? ???65 ????0 ???20 ???10 ????5

Table 1 (continuing)

Embodiment	????7	????8	????9	????10	??11	????12
Embodiment	????7	????8	????9	????10	??11	????12	(weight percent) PP homopolymer PP segmented copolymer talcum ethylenebis tetrabromo phthalimide ANTIMONY TRIOXIDE SB 203 99.8 PCT is formed in blend	? ????0 ???80 ????5 ???10 ????5	? ????0 ???75 ???10 ???10 ????5	? ????0 ???70 ???15 ???10 ????5	? ????0 ???63 ???15 ???15 ????7	? ???0 ??53 ??15 ??25 ???7	? ????0 ???65 ???20 ???10 ????5
Tensile strength (kgf/cm ²) bending elastic modulus (kgf/cm ²) cantilever fine strain of millet formula shock strength (kgf.cm/cm ²) (100 ℃ of the bleed performances of arc resistance (sec) final products; 240 hours) outward appearance of bleed performance (injection moulding is through after 100 injections) final products on the mould (injection moulding through 100 times inject after) incendivity (UL94 normal beam technique; 1.6mm, group)	280 20,000 4.9 110 good carefully v-2	270 24,000 4.5 110 good carefully v-2	260 27,000 4.1 100 good carefully v-2	250 30,000 4.0 75 good carefully v-1	240 31,000 3.5 70 good carefully v-0	250 30,000 4.0 75 good carefully v-2		? ????0 ???80 ????5 ???10 ????5	? ????0 ???75 ???10 ???10 ????5	? ????0 ???70 ???15 ???10 ????5	? ????0 ???63 ???15 ???15 ????7	? ???0 ??53 ??15 ??25 ???7	? ????0 ???65 ???20 ???10 ????5

Table 2

Embodiment	????13	????14	????15	????16	????17	????18
Embodiment	????13	????14	????15	????16	????17	????18	(weight percent) PP homopolymer PP segmented copolymer talcum ethylenebis tetrabromo phthalimide ANTIMONY TRIOXIDE SB 203 99.8 PCT is formed in blend	? ???80 ????0 ????5 ???10 ????5	? ????75 ????0 ????10 ????10 ????5	? ????70 ????0 ????15 ????10 ????5	? ????63 ????0 ????15 ????15 ????7	? ????53 ????0 ????15 ????25 ????7	? ????65 ????0 ????20 ????10 ????5
Tensile strength (kgf/cm ²) bending elastic modulus (kgf/cm ²) cantilever fine strain of millet formula shock strength (kgf.cm/cm ²) (100 ℃ of the bleed performances of arc resistance (sec) final products; 240 hours) outward appearance of bleed performance (injection moulding is through after 100 injections) final products on the mould (injection moulding through 100 times inject after) incendivity (UL94 normal beam technique; 1.6mm, group)	360 24,000 5.0 110 good carefully v-2	350 27,000 4.5 105 good carefully v-2	350 29,000 4.2 100 good carefully v-2	320 31,000 3.8 80 good carefully v-1	310 33,000 3.5 70 good carefully v-0	310 31,000 3.8 75 good carefully v-2		? ???80 ????0 ????5 ???10 ????5	? ????75 ????0 ????10 ????10 ????5	? ????70 ????0 ????15 ????10 ????5	? ????63 ????0 ????15 ????15 ????7	? ????53 ????0 ????15 ????25 ????7	? ????65 ????0 ????20 ????10 ????5

Table 2 (continuing)

Embodiment	????19	????20	????21	????22	????23	????24
Embodiment	????19	????20	????21	????22	????23	????24	(weight percent) PP homopolymer PP segmented copolymer talcum ethylenebis tetrabromo phthalimide ANTIMONY TRIOXIDE SB 203 99.8 PCT is formed in blend	? ????0 ????80 ????5 ????10 ????5	? ????0 ????75 ????10 ????10 ????5	? ????0 ????70 ????15 ????10 ????5	? ????0 ????63 ????15 ????15 ????7	? ????0 ????53 ????15 ????25 ????7	? ????0 ????65 ????20 ????10 ????5
Tensile strength (kgf/cm ²) bending elastic modulus (kgf/cm ²) cantilever fine strain of millet formula shock strength (kgf.cm/cm ²) (100 ℃ of the bleed performances of arc resistance (sec) final products; 240 hours) outward appearance of bleed performance (injection moulding is through after 100 injections) final products on the mould (injection moulding through 100 times inject after) incendivity (UL94 normal beam technique; 1.6mm, group)	270 20,000 5.5 115 good carefully v-2	260 24,000 4.9 105 good carefully v-2	250 27,000 4.5 100 good carefully v-2	240 30,000 4.4 80 good carefully v-1	230 31,000 4.0 70 good carefully v-0	240 30,000 4.5 75 good carefully v-2		? ????0 ????80 ????5 ????10 ????5	? ????0 ????75 ????10 ????10 ????5	? ????0 ????70 ????15 ????10 ????5	? ????0 ????63 ????15 ????15 ????7	? ????0 ????53 ????15 ????25 ????7	? ????0 ????65 ????20 ????10 ????5

Table 3

Comparative Examples	????1	????2	????3	????4	????5	????6
Comparative Examples	????1	????2	????3	????4	????5	????6	(weight percent) PP homopolymer PP segmented copolymer talcum ethylenebis tetrabromo phthalimide ANTIMONY TRIOXIDE SB 203 99.8 PCT is formed in blend	? ????80 ????0 ????5 ????10 ????5	? ????75 ????0 ????10 ????10 ????5	? ????70 ????0 ????15 ????10 ????5	? ????63 ????0 ????15 ????15 ????7	? ????53 ????0 ????15 ????25 ????7	? ????65 ????0 ????20 ????10 ????5
Tensile strength (kgf/cm ²) bending elastic modulus (kgf/cm ²) cantilever fine strain of millet formula shock strength (kgf.cm/cm ²) (100 ℃ of the bleed performances of arc resistance (sec) final products; 240 hours) outward appearance of bleed performance (injection moulding is through after 100 injections) final products on the mould (injection moulding through 100 times inject after) incendivity (UL94 normal beam technique; 1.6mm, group)	360 24,000 4.5 110 difference difference difference v-2	350 27,000 4.0 105 difference difference difference v-2	350 30,000 3.8 100 difference difference difference v-2	320 33,000 3.5 80 difference difference difference V-1	330 35,000 3.0 70 difference difference difference v-0	320 33,000 3.3 75 good job difference v-2		? ????80 ????0 ????5 ????10 ????5	? ????75 ????0 ????10 ????10 ????5	? ????70 ????0 ????15 ????10 ????5	? ????63 ????0 ????15 ????15 ????7	? ????53 ????0 ????15 ????25 ????7	? ????65 ????0 ????20 ????10 ????5

Table 3 (continuing)

Comparative Examples	????7	????8	????9	????10	????11	????12
Comparative Examples	????7	????8	????9	????10	????11	????12	(weight percent) PP homopolymer PP segmented copolymer talcum ethylenebis tetrabromo phthalimide ANTIMONY TRIOXIDE SB 203 99.8 PCT is formed in blend	? ????0 ????80 ????5 ????10 ????5	? ????0 ????75 ????10 ????10 ????5	? ????0 ????70 ????15 ????10 ????5	? ????0 ????63 ????15 ????15 ????7	? ????0 ????53 ????15 ????25 ????7	? ????0 ????65 ????20 ????10 ????5
Tensile strength (kgf/cm ²) bending elastic modulus (kgf/cm ²) cantilever fine strain of millet formula shock strength (kgf.cm/cm ²) (100 ℃ of the bleed performances of arc resistance (sec) final products; 240 hours) outward appearance of bleed performance (injection moulding is through after 100 injections) final products on the mould (injection moulding through 100 times inject after) incendivity (UL94 normal beam technique; 1.6mm, group)	280 20,000 4.9 105 good job difference v-2	270 24,000 4.5 105 good job difference v-2	260 27,000 4.1 100 good job difference v-2	250 30,000 4.0 75 good job difference v-1	240 31,000 3.5 70 good job difference v-0	250 30,000 4.0 75 good job difference v-2		? ????0 ????80 ????5 ????10 ????5	? ????0 ????75 ????10 ????10 ????5	? ????0 ????70 ????15 ????10 ????5	? ????0 ????63 ????15 ????15 ????7	? ????0 ????53 ????15 ????25 ????7	? ????0 ????65 ????20 ????10 ????5

Industrial usability

Because crystalline polyolefin resin composition of the present invention contains blend crystalline propene polymer together, inorganic filler, specific halogen-containing flame retardant, and flame retardant, frosting in the time of can preventing injection moulding on die surface (like the separation of powder-form), overcome the final products deficiency in appearance that causes owing to the migration of bleed component on mould, and overcome the reduction of the productivity ratio of bringing owing to wiping bleed component.

Further, not only the bleed aspect of performance on mould is satisfactory owing to crystalline polyolefin resin composition of the present invention, and simultaneously in mechanical performance (hot strength and the modulus of elasticity in static bending), electrical property, the bleed performance of final products, the outward appearance of final products, and the anti-flammability aspect is also satisfactory, so said composition can be widely used in electrical insulation parts, such as bayonet cap, the distribution disk cover, plug flap, code spool case, the noise filtering bobbin, copier part, parts of refrigerator, and the tuner parts that comprise the deflection coil separator.

Claims

1. crystalline polyolefin resin composition, the crystalline propene polymer that contains 40～85wt.%, the mineral filler of 3～40wt.%, the halogen-containing flame retardant that comprises ethylenebis tetrabromo phthalimide, decabrominated dipheny base ethane or their mixture of 7～30wt.%, and the flame retardant of 3～15wt.%.

2. the described crystalline polyolefin resin composition of claim 1, wherein said crystalline propene polymer is an alfon or a propylene-ethylene copolymers.

3. the described crystalline polyolefin resin composition of claim 2, the melt flow rate of wherein said alfon is 1.0 to 80g/10 minutes.

4. the described crystalline polyolefin resin composition of claim 2, wherein said propylene-ethylene copolymers contains the ethene of 2～35wt.%, and its melt flow rate is 1.0 to 40g/10 minutes.

5. each described crystalline polyolefin resin composition of claim 1 to 4, wherein said mineral filler is a talcum, mica, silicon-dioxide, lime carbonate, barium sulfate, or glass fibre.

6. each described crystalline polyolefin resin composition of claim 1 to 5, wherein said flame retardant is a kind of antimony compounds or boron compound.

7. electrical insulation parts, the described crystalline polyolefin resin composition by each definition of molding claim 1 to 6 obtains.