CN102690513B - Permanent anti-static composition for plastic and preparation method for permanent anti-static composition - Google Patents
Permanent anti-static composition for plastic and preparation method for permanent anti-static composition Download PDFInfo
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Abstract
The invention relates to a permanent anti-static composition for plastic. The anti-static composition comprises the following components in percentage by mass: 83 to 98 percent of macromolecular polymer, 1 to 12 percent of anti-static agent and 1 to 5 percent of white carbon black. The invention also provides a preparation method for the anti-static composition. The preparation method comprises the steps of uniformly mixing the materials by using a high mixing machine according to the formula and extruding and pelleting to obtain the anti-static composition. The permanent anti-static composition for plastic has a good and wide processing using range, is suitable for various kinds of plastic, has excellent dispersity on plastic, maintains the characteristics of plastic and has excellent anti-static performance.
Description
Technical field
The present invention relates to a kind of plastics permanent anti-static composition and method of making the same, particularly, the present invention relates to polymer-type permanent anti-static composition and method of making the same for a kind of plastics.
Background technology
Most of macromolecular materials easily produce accumulation of static electricity in producing and using, thereby cause the bad phenomenon such as electrostatic precipitation, static discharge.When serious, can produce spark, cause fire or blast, make troubles to industrial production and daily life.
Current, plastic prod is widely used as wrapping material etc., but common frosting resistance is all greater than 10
12more than Ω, electroconductibility extreme difference easily produces static and is difficult for leading away in packed and transported process, and product is caused to very large harm.Along with the increasingly extensive application of static inhibitor, the performance of static inhibitor has also been proposed to more and more higher requirement.
Plastics are the widely used high molecular synthetic materials of modern society, it have very high surface resistivity (25 ℃, RH60%, resistivity 10
17Ω).Thereby, once after frictional electrification, static is difficult for being removed and being trapped in frosting by conduction.Due to the existence of static, not only affect (dust suction etc.) attractive in appearance of plastics, main is manufacture and the use that affects plastics.Plastic wrapping static inhibitor reduces Polymer Surface resistivity and electric density for plastics face, thereby reaches the object of removing static hazard.
When plastics and product surface resistance: very easily produce static while being greater than 10 power; Between 8-10 power, there is certain antistatic performance; Between 6-8 power, there is good antistatic performance; Between 4-6 power, there is best antistatic performance; When reaching 4 powers, there is below suitable conductivity, belonged to conductor semiconductor material.
Traditional static inhibitor is comprised of micromolecular surfactant, and it contains hydrophilic radical and lipophilic group.Because it is not exclusively compatible with resin itself, so static inhibitor can be from resin internal migration to resin surface.Traditional static inhibitor need to can work under certain humidity condition, and its hydrophilic radical can promote that frosting is moistening by water, thus conduct static lotus, the surface resistivity of reduction plastics.Only have and behind surface, just can work when traditional static inhibitor molecular migration, the static inhibitor molecule of plastics inner moves about to surface, until completely consumed, thereby its action effect only within the scope of certain hour effectively.
Polymer permanent antistatic agent can only join in base-material by mixing method.It is not by migrating to frosting, but lean against plastics inner, forms a Percolation Network with conductive capability, as path, takes off surface and intrinsic static charge, reduces resistivity.Compare with traditional static inhibitor, its antistatic effect is lasting, without inductive phase, not affected by the conditions such as wiping and washing; Because its conductivity does not reach by water layer, thus little to the relative humidity dependency of air, and the mechanical property of goods and resistance toheat are not affected by it.
Polymer permanent antistatic agent is a class new anti-static agent of Recent study exploitation, belongs to hydrophilic polymer.After itself and macromolecule matrix blend, on the one hand because the motor capacity of its molecular chain is stronger, the intermolecular proton of being convenient to moves, and is conducted and is discharged the static charge of generation by ionic conduction; On the other hand, antistatic effect is to embody by its special dispersing morphology.Research shows, polymer permanent antistatic agent is mainly that the stratiform or the muscle shape that on goods top layer, are fine distribute, and forms electroconductibility top layer, and is almost spherical distribution at centre portions, forms so-called " core shell structure ", and leaks static charge as path.Because polymer permanent antistatic agent is to reduce material volume resistivity to reach antistatic effect, not exclusively rely on water absorbent surface, so be subject to the humidity effect of environment smaller.Compare with traditional static inhibitor, the electric charge that these hydrophilic polymers can not only releaser surface, can also discharge the electric charge of interior of articles, therefore can reduce surface resistivity and the volume resistance of object simultaneously.
CN102051156A discloses a kind of poly-bacteria ether family macromolecule static inhibitor, and it is mainly prepared by the raw material of following weight part: 100 parts of poly glycol monomethyl ether methacrylic vinegars, methyl methacrylate vinegar 30-250 part, sodium methacrylate or methacrylic acid and sodium carbonate mixture 2-50 part, water glass 1-30 part and AIBNO.1-5 part.This invention does not adopt unstable and poisonous sodium perchlorate, make production process environmental protection more, in addition this invention has also improved the heatproof characteristic of product, has expanded use range, can be applicable in the material such as PET, PA, PB, PE, PP, PS, ABS, PVC, PLA of anti-electrostatic.
CN1326922C discloses a kind of static resistant polyamide composition, said composition contains at least one polyamide and makes it become anlistatig enough carbon blacks, and this carbon black is that at least one is selected from the carbon black with following characteristic: according to the BET specific surface of ASTM D 3037-89 standard test, be 5-200 rice
2/ gram, according to the DBP of ASTMD2414-90 standard test, be absorbed as 50-300 milliliter/100 gram.
Summary of the invention
One of object of the present invention is to provide a kind of plastics permanent anti-static composition, described antistatic composition has good wider processing use range, and applicable plastic is many, the excellent dispersion to plastics, when keeping plastic properties, there is excellent antistatic property.
In order to achieve the above object, the present invention has adopted following technical scheme:
Described plastics permanent anti-static composition, adopts high molecular polymer and static inhibitor and white carbon black to be mixed with and obtains.
Described plastics permanent anti-static composition, the mass percent that accounts for antistatic composition by its each component comprises:
High molecular polymer 83 ~ 98%
Static inhibitor 1 ~ 12%
White carbon black 1 ~ 5%,
Each component sum of described antistatic composition is 100%.
As optimal technical scheme, the mass percent that described antistatic composition accounts for antistatic composition by its each component comprises:
High molecular polymer 86 ~ 97%
Static inhibitor 2 ~ 10%
White carbon black 1 ~ 4%,
Each component sum of described antistatic composition is 100%.
As optimal technical scheme, the mass percent that described antistatic composition accounts for antistatic composition by its each component comprises:
High molecular polymer 90 ~ 95%
Static inhibitor 3 ~ 8%
White carbon black 1 ~ 3%,
Each component sum of described antistatic composition is 100%.
As optimal technical scheme, the mass percent that described antistatic composition accounts for antistatic composition by its each component comprises:
High molecular polymer 90 ~ 95%
Static inhibitor 5%
White carbon black 2%,
Each component sum of described antistatic composition is 100%.
The mass percent that described high molecular polymer accounts for antistatic composition is 83 ~ 98%, for example 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, preferably 86 ~ 97%, further preferably 90 ~ 95%.
The mass percent that described static inhibitor accounts for antistatic composition is 1 ~ 12%, for example 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, preferably 2 ~ 10%, further preferably 3 ~ 8%, more preferably 5%.
Described white carbon black accounts for 1 ~ 5%, and for example 1.5%, 2%, 2.5%, 3%, 3.5%, 4%, 4.5%, preferably 1 ~ 4%, further preferably 1 ~ 3%, more preferably 2%.
Described antistatic composition can only be comprised of high molecular polymer, static inhibitor and white carbon black, and meanwhile, described antistatic composition can also comprise other component." comprising " described above, means it except described component, can also comprise other components, and these other components give described antistatic composition different characteristics.In addition, " comprising " of the present invention, can also replace with enclosed " being " or " by ... form ".No matter which kind of composition antistatic composition of the present invention comprises, the mass percent sum of described antistatic composition is 100%.
Described high molecular polymer those skilled in the art can select according to existing polymer-type permanent anti-static composition, for example can select polyethylene oxide, polyetheramides imines, polyaniline, the mixture of a kind of in polymeric amide or at least two kinds, described mixture is the mixture of polymeric amide and polyaniline for example, the mixture of polyetheramides imines and polyethylene oxide, the mixture of polyethylene oxide and polymeric amide, the mixture of polyaniline and polyetheramides imines, polyethylene oxide, the mixture of polymeric amide and polyaniline, polyetheramides imines, the mixture of polyethylene oxide and polymeric amide, polyaniline, polyetheramides imines, the mixture of polyethylene oxide and polymeric amide.
As optimal technical scheme, described high molecular polymer is mixed to get by polymeric amide, polymeric amide-copolyether and SEBS-MAH, and the mass percent that this high molecular polymer accounts for antistatic composition by its each component comprises:
Kymene 5 ~ 55%
Polymeric amide-copolyether 40 ~ 62%
SEBS-MAH 1~10%。
As optimal technical scheme, the mass percent that described high molecular polymer accounts for antistatic composition by its each component comprises:
Polymeric amide 40 ~ 50%
Polymeric amide-copolyether 45 ~ 60%
SEBS-MAH 2~8%。
As optimal technical scheme, the mass percent that described high molecular polymer accounts for antistatic composition by its each component comprises:
Polymeric amide 40 ~ 45%
Polymeric amide-copolyether 50 ~ 55%
SEBS-MAH 5%。
The mass percent that described polymeric amide accounts for antistatic composition is 35 ~ 55%, for example 36%, 38%, 40%, 42%, 44%, 46%, 48%, 50%, 51%, 52%, 53%, 54%, preferably 40 ~ 50%, further preferably 40 ~ 45%.
The mass percent that polymeric amide-copolyether accounts for antistatic composition is 40 ~ 62%, for example 42%, 44%, 46%, 48%, 50%, 52%, 54%, 56%, 58%, 60%, 62%, preferably 45 ~ 60%, further preferably 50 ~ 55%.
The mass percent that described SEBS-MAH accounts for antistatic composition is 1 ~ 10%, for example 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 9.5%, preferably 2 ~ 8%, further preferably 5%.
Described high molecular polymer can only be comprised of polymeric amide, polymeric amide-copolyether and SEBS-MAH, and meanwhile, described high molecular polymer can also comprise other component.For example high molecular polymer of the present invention can also comprise coupling agent, as titanate coupling agent." comprising " described above, means it except described component, can also comprise other components, and these other components give described high molecular polymer different characteristics.In addition, described " comprising ", can also replace with enclosed " being " or " by ... form ".No matter which kind of component described high molecular polymer comprises, the mass percent sum of described high molecular polymer reaches the requirement that it accounts for antistatic composition.For example, while containing mass percent and be 95% high molecular polymer in described antistatic composition, the mass percent that the composition of described high molecular polymer accounts for antistatic composition by each component can be: 40% polymeric amide, polymeric amide-copolyether of 50% and 5%SEBS-MAH, its mass percent summation is 95%.
As optimal technical scheme, the mass percent that described antistatic composition accounts for antistatic composition by its each component comprises:
High molecular polymer 90 ~ 95%
Static inhibitor 5%
White carbon black 2%,
Wherein, the mass percent that described high molecular polymer accounts for antistatic composition by its each component comprises:
Polymeric amide 40 ~ 45%
Polymeric amide-copolyether 50 ~ 55%
SEBS-MAH 5%,
Each component sum of described antistatic composition is 100%.
Described static inhibitor is amides static inhibitor, and the typical but non-limiting example of the present invention, as the static inhibitor ASA-90 of Beijing City Chemical-Industry Academy's research and development, can be commercially available.
Described white carbon black is selected from precipitated silica, aerosil, the mixture of a kind of in superfine silicon dioxide gel and aerogel or at least two kinds, described mixture is the mixture of aerogel and superfine silicon dioxide gel for example, the mixture of aerosil and precipitated silica, the mixture of precipitated silica and aerogel, the mixture of superfine silicon dioxide gel and aerosil, precipitated silica, the mixture of aerogel and superfine silicon dioxide gel, aerosil, the mixture of precipitated silica and aerogel, superfine silicon dioxide gel, superfine silicon dioxide gel, the mixture of precipitated silica and aerogel, preferred precipitated silica and/or aerosil, further preferred precipitated silica.
White carbon black is porous material, and it forms available SiO2nH2O and represents, wherein nH2O is that form with surface hydroxyl exists.Can be dissolved in caustic alkali and hydrofluoric acid, water insoluble, solvent and acid (except for hydrofluoric acid), have high temperature resistant, do not fire, tasteless, odorless, there is good electrical insulating property.
White carbon black is porous material, and its effective surface area is large, is added in antistatic composition, can significantly improve the processing characteristics of antistatic composition.
Polymeric amide of the present invention, is to be understood that it is polyamide or the PA that contains aliphatic series and/or cyclic aliphatic and/or aromatic structure unit.
Can enumerate one or more lactan, these lactan contain at least 6 carbon atoms, at least 10 carbon atoms preferably, and preferably lactan is capric acid amine, undecanoic amide, dodecane acid amides.
Meanwhile, described polymeric amide can be also the polymeric amide that one or more aliphatic diamines and one or more aliphatic dicarboxylic acids obtain through condensation according to basic stoichiometric quantity.Can use excessive diamines, to obtain comparing excessive end amine groups with this polymeric amide middle-end carboxylic group, for example described polymeric amide can be the mixture of a kind of in PA610, PA612, PA1010 or at least two kinds.Described mixture is the mixture of PA612 and PA1010 for example, the mixture of PA610 and PA1010, the mixture of PA610 and PA612, the mixture of PA610, PA612 and PA1010.
As optimal technical scheme, described polymeric amide preferred polyamide 6(PA6) and/or polymeric amide 12(PA12), further preferred PA12.
Preferably, the preferred extrusion molding level of described polyamide 6 polyamide 6, the further preferably mixture of a kind of in PA6 1500, PA6 1700, PA6 1030, PA6 1040 or at least two kinds.Described mixture is the mixture of PA6 1040 and PA6 1030 for example, the mixture of PA6 1700 and PA6 1500, the mixture of PA6 1040 and PA6 1700, the mixture of PA6 1030 and PA6 1500, the mixture of PA6 1040, PA6 1030 and PA6 1700, the mixture of PA6 1500, PA6 1040 and PA6 1030, the mixture of PA6 1040, PA6 1030, PA6 1700 and PA6 1500.PA6 1500 described above, PA6 1700, PA6 1030, PA61040 are all available commercially.
Preferably, described polymeric amide-copolyether is selected from the mixture of a kind of in PEBAX MH1657, PEBAX MH2030, PEBAX MV1074, PEBAX MV2080 or at least two kinds, preferably PEBAX MH1657.Described mixture is the mixture of PEBAX MV2080 and PEBAX MV1074 for example, the mixture of PEBAX MH2030 and PEBAX MH1657, the mixture of PEBAX MH1657 and PEBAXMV2080, the mixture of PEBAX MV1074 and PEBAX MH2030, the mixture of PEBAXMH1657, PEBAX MV2080 and PEBAX MV1074, the mixture of PEBAX MH2030, PEBAX MH1657 and PEBAX MV2080, the mixture of PEBAX MV2080, PEBAXMV1074, PEBAX MH2030 and PEBAX MH1657.
Above-mentioned PEBAX MH1657, PEBAX MH2030, PEBAX MV1074 and PEBAXMV2080 are that Arkema research a kind of has the permanent anti-static agent of polyether segment based on synthetic on polymeric amide basis, and its tool has the following advantages:
The agent of PEBAX permanent anti-static is with respect to the advantage of chemical static inhibitor:
Can not move, can as chemical static inhibitor, not cause masterbatch atomization; In product, form polymer network structure, permanent anti-static; In utmost point low-humidity environment, still keep antistatic property, chemical static inhibitor need to just can work in higher levels of humidity; Add in polymkeric substance and come into force, chemical static inhibitor needs the certain humidity of certain hour just can have static resistance; Heat stability is good, low ionic impurity content; Chemical resistant properties is good; After recovery, still there is static resistance.
SEBS-MAH, polystyrene-poly ethene-polybutene-polystyrene graft maleic anhydride.
SEBS is obtained after hydrogenation by SBS, it is a kind of extremely promising thermoplastic elastomer, there is the features such as heatproof, weather-proof, resistance to ozone oxidation, there is excellent consistency with PP, PE, PET, PBT, PPS, PA etc., but, owing to not containing polarity or reactive group on SEBS molecular chain, itself and urethane, polymeric amide, polyester etc. have the engineering plastics consistency of polarity poor, SEBS is carried out after grafting MAH modification, its bonding and coupling performance are enhanced, being fabulous adhesive accelerant and coupling material, is a kind of compatilizer of typical polyblend.Be added with the excellent dispersion of the antistatic composition of SEBS-MAH, and described antistatic composition can be dispersed in plastics, form conductive path, electric charge concentrated in plastics is released.
Two of object of the present invention is to provide a kind of preparation method of antistatic composition as mentioned above, by formula, utilizes high mixer that mixing of materials is even, and then extruding pelletization obtains antistatic composition.The aforementioned preferred preparation method for described antistatic composition for antistatic composition of the present invention is equally also preferred.
Preferably, described in extrude by twin screw extruder or/and single screw extrusion machine is realized, preferred twin screw extruder.
Antistatic composition of the present invention can be used in the plastics such as PP, PE, ABS, PET, PU, PET, PBT, PPS, PA, PC, PS, PVC, AS, MBS, PLA, and use range is very wide.
Compared with prior art, the present invention has following beneficial effect:
(1) the present invention is by selecting the mixture of high molecular polymer, static inhibitor and white carbon black, and high molecular polymer has been carried out to corresponding selection simultaneously, resulting antistatic composition has good wider processing use range, applicable plastic is many, excellent dispersion to plastics, the surface resistivity of gained plastics is all 10
6Ω left and right (25 ℃, relative humidity RH60%), when keeping plastic properties, has very excellent antistatic property;
(2) the present invention, by selecting PEBAX MH1657 as a part for high molecular polymer, makes antistatic composition in plastic prod, form polymer network structure, permanent anti-static, and can improve thermostability and the chemical resistant properties of antistatic composition;
(3) the present invention, by selecting white carbon black to be added in antistatic composition, can not lumpd and reunite during mixing of materials, and extrusion is more smooth and easy, has improved the processibility of antistatic composition;
(4) the present invention adds SEBS-MAH by selection, make the dispersiveness of antistatic composition in polarity and non-polar plastic goods all very excellent, improved the range of application of described antistatic composition, and described antistatic composition can be dispersed in plastics, form conductive path, electric charge concentrated in plastics is released.
Embodiment
For the present invention is described better, be convenient to understand technical scheme of the present invention, typical but non-limiting embodiment of the present invention is as follows:
Embodiment 1
The mass percent that described antistatic composition accounts for antistatic composition by its each component is:
High molecular polymer 83
ASA-90 12
White carbon black 5, each component sum of described antistatic composition is 100%.
Wherein, the mass percent that described high molecular polymer accounts for antistatic composition by its each component consists of:
PA6 1500 42
PEBAX MH1657 40
SEBS-MAH 1。
Embodiment 2
The mass percent that described antistatic composition accounts for antistatic composition by its each component is:
High molecular polymer 98
ASA-90 1
White carbon black 1, each component sum of described antistatic composition is 100%.
Wherein, the mass percent that described high molecular polymer accounts for antistatic composition by its each component consists of:
PA6 1700 55
PEBAX MH1657 40
SEBS-MAH 3。
Embodiment 3
The mass percent that described antistatic composition accounts for antistatic composition by its each component is:
High molecular polymer 90
ASA-90 7
White carbon black 3, each component sum of described antistatic composition is 100%.
Wherein, the mass percent that described high molecular polymer accounts for antistatic composition by its each component consists of:
PA6 1500 35
PEBAX MH1657 45
SEBS-MAH 10。
Embodiment 4
The mass percent that described antistatic composition accounts for antistatic composition by its each component is:
High molecular polymer 98
ASA-90 1
White carbon black 1, each component sum of described antistatic composition is 100%.
Wherein, the mass percent that described high molecular polymer accounts for antistatic composition by its each component consists of:
PA6 1500 35
PEBAX MH1657 62
SEBS-MAH 1。
Embodiment 5
The mass percent that described antistatic composition accounts for antistatic composition by its each component is:
High molecular polymer 83
ASA-90 12
White carbon black 5, each component sum of described antistatic composition is 100%.
Wherein, the mass percent that described high molecular polymer accounts for antistatic composition by its each component consists of:
PA12 42
PEBAX MH1657 40
SEBS-MAH 1。
Antistatic composition described in embodiment 1-5 is added in resin, it is carried out to SEM test, can observe antistatic composition and be uniformly dispersed in resin.
Antistatic composition described in embodiment 1-5 is added in resin, the plastics that obtain are carried out to surface resistivity test according to ASTM D257, the surface resistivity of gained plastics is all 10
6Ω left and right (25 ℃, relative humidity RH60%), has very excellent antistatic property.
Should be noted that and understand, in the situation that not departing from the desired the spirit and scope of the present invention of accompanying claim, can make various modifications and improvement to the present invention of foregoing detailed description.Therefore, the scope of claimed technical scheme is not subject to the restriction of given any specific exemplary teachings.
Applicant's statement, the present invention illustrates detailed method of the present invention by above-described embodiment, but the present invention is not limited to above-mentioned detailed method, does not mean that the present invention must rely on above-mentioned detailed method and could implement.Person of ordinary skill in the field should understand, any improvement in the present invention, to the selection of the interpolation of the equivalence replacement of each raw material of product of the present invention and ancillary component, concrete mode etc., within all dropping on protection scope of the present invention and open scope.
Claims (21)
1. a plastics permanent anti-static composition, is characterized in that, the mass percent that described antistatic composition accounts for antistatic composition by its each component comprises:
High molecular polymer 83~98%
Static inhibitor 1~12%
White carbon black 1~5%,
Each component sum of described antistatic composition is 100%;
The mass percent that described high molecular polymer accounts for antistatic composition by its each component comprises:
Kymene 5~55%
Polymeric amide-copolyether 40~62%
SEBS-MAH 1~10%。
2. antistatic composition as claimed in claim 1, is characterized in that, the mass percent that described antistatic composition accounts for antistatic composition by its each component comprises:
High molecular polymer 86~97%
Static inhibitor 2~10%
White carbon black 1~4%,
Each component sum of described antistatic composition is 100%.
3. antistatic composition as claimed in claim 1, is characterized in that, the mass percent that described antistatic composition accounts for antistatic composition by its each component comprises:
High molecular polymer 90~95%
Static inhibitor 3~8%
White carbon black 1~3%,
Each component sum of described antistatic composition is 100%.
4. antistatic composition as claimed in claim 1, is characterized in that, the mass percent that described antistatic composition accounts for antistatic composition by its each component comprises:
High molecular polymer 90~95%
Static inhibitor 5%
White carbon black 2%.
5. antistatic composition as claimed in claim 1, is characterized in that, the mass percent that described high molecular polymer accounts for antistatic composition by its each component comprises:
Polymeric amide 40~50%
Polymeric amide-copolyether 45~60%
SEBS-MAH 2~8%。
6. antistatic composition as claimed in claim 1, is characterized in that, the mass percent that described high molecular polymer accounts for antistatic composition by its each component comprises:
Polymeric amide 40~45%
Polymeric amide-copolyether 50~55%
SEBS-MAH 5%。
7. antistatic composition as claimed in claim 1, is characterized in that, the mass percent that described antistatic composition accounts for antistatic composition by its each component comprises:
High molecular polymer 90~95%
Static inhibitor 5%
White carbon black 2%,
Wherein, the mass percent that described high molecular polymer accounts for antistatic composition by its each component comprises:
Polymeric amide 40~45%
Polymeric amide-copolyether 50~55%
SEBS-MAH 5%,
Each component sum of described antistatic composition is 100%.
8. antistatic composition as claimed in claim 1, is characterized in that, described static inhibitor is amides static inhibitor.
9. antistatic composition as claimed in claim 1, is characterized in that, described white carbon black is selected from the mixture of a kind of in precipitated silica, aerosil, superfine silicon dioxide gel and aerogel or at least two kinds.
10. antistatic composition as claimed in claim 9, is characterized in that, described white carbon black is selected from precipitated silica and/or aerosil.
11. antistatic compositions as claimed in claim 10, is characterized in that, described white carbon black is selected from precipitated silica.
12. antistatic compositions as claimed in claim 1, is characterized in that, described polymeric amide is selected from polyamide 6 and/or polymeric amide 12.
13. antistatic compositions as claimed in claim 12, is characterized in that, described polymeric amide is selected from polymeric amide 12.
14. antistatic compositions as claimed in claim 12, is characterized in that, described polyamide 6 is selected from extrusion molding level polyamide 6.
15. antistatic compositions as claimed in claim 14, is characterized in that, described polyamide 6 is selected from the mixture of a kind of in PA61500, PA61700, PA61030, PA61040 or at least two kinds.
16. antistatic compositions as claimed in claim 15, is characterized in that, described polyamide 6 is selected from PA61500.
17. antistatic compositions as claimed in claim 1, is characterized in that, described polymeric amide-copolyether is selected from the mixture of a kind of in PEBAX MH1657, PEBAX MH2030, PEBAX MV1074, PEBAX MV2080 or at least two kinds.
18. antistatic compositions as claimed in claim 17, is characterized in that, described polymeric amide-copolyether is selected from PEBAX MH1657.
The preparation method of 19. 1 kinds of antistatic compositions as described in one of claim 1-18, is characterized in that, described method is: by formula, utilize high mixer that mixing of materials is even, then extruding pelletization obtains antistatic composition.
20. methods as claimed in claim 19, is characterized in that, described in extrude by twin screw extruder or/and single screw extrusion machine is realized.
21. methods as claimed in claim 20, is characterized in that, described in extrude by twin screw extruder and realize.
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CN102399431A (en) * | 2011-11-23 | 2012-04-04 | 上海日之升新技术发展有限公司 | Permanent antistatic PA66/HDPE alloy and preparation method thereof |
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