CN1687219A - Metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density, preparation method and application - Google Patents
Metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density, preparation method and application Download PDFInfo
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- CN1687219A CN1687219A CN 200510070777 CN200510070777A CN1687219A CN 1687219 A CN1687219 A CN 1687219A CN 200510070777 CN200510070777 CN 200510070777 CN 200510070777 A CN200510070777 A CN 200510070777A CN 1687219 A CN1687219 A CN 1687219A
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Abstract
The present invention relates to a metallocene ternary ethylene-propylene-rubber-low-density polyethylene cross-linked polymer. It is formed from (by mass%) 50-80% of metallocene ternary ethylene-propylene rubber, 15-45% of low-density polyethylene, 0-10% of inorganic rigid particles and 0.1-1% of peroxide initiator, its cross-linking degree is 65.5-72.1%, and it is used for toughening and modifying homopolymerized polypropylene. Besides, said invention also provides the concrete steps of its preparation method and its concrete application.
Description
Technical field:
The present invention relates to homo-polypropylene modification technology field, particularly a kind of metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density and preparation method thereof.
Background technology:
Polypropylene as one of four big synthetic resins is widely used in numerous areas such as automobile, household electrical appliances, building, packing owing to having good mechanical property, processing characteristics and chemical property, and its ultimate production is with the rate increase in year about 7%.Wherein homo-polypropylene is more simple because of production technique, and raw material propylene both can be from light oil cracking gas, also can be from refinery gas, and production cost is low, and has higher tensile strength and rigidity, therefore occupies very high share in the polypropylene ultimate production always.But the homo-polypropylene poor toughness, Application Areas is narrow, and added value of product is low to be puzzlement manufacturer and application person's a difficult problem always.The researchist has developed the method for a series of homo-polypropylene toughening modifyings in succession for this reason.Wherein commonly used is adds a certain proportion of rubber elastomer such as terpolymer EP rubber (EPDM), ethylene-propylene rubber(EPR) (EPR), ethylene-octene copolymer elastomerics (POE), butadiene-styrene thermoplastic elastomer (SBS), hydrogenated butadiene-styrene thermoplastic elastomer (SEBS) etc. in homo-polypropylene.Its adding proportion is generally up to more than the 15wt%, but weakened its rigidity simultaneously significantly improving the homo-polypropylene flexible, and the performance of material has lost balance.The POE/ high density polyethylene(HDPE) toughened master batch that patent CN01114932.9 introduces can improve polyacrylic toughness to greatest extent with minimum addition, and simultaneously unlikely again undue other performances that influence material are rigidity particularly.But because the used POE of this masterbatch of preparation is a kind of metallocene linear polyethylene elastomerics, its macromolecular chain structure is similar to linear low density polyethylene (LLDPE) substantially, its cross-linking agent is used for the homo-polypropylene toughening modifying still need be by means of a large amount of compatilizers---block copolymerization polypropylene, and a large amount of block copolymerization polypropylenes be added in the rigidity that has weakened material to a certain extent, be unfavorable for obtaining the matrix material of high rigidity high tenacity, production cost is also higher.Patent CN200510002251.4 has introduced the preparation method and the purposes of Cisdene-low density polyethylene cross-linked material, but its objective is the low-temperature flexibility that is intended to improve homo-polypropylene, reach the rigidity and the toughness problem of balance matrix material to a certain extent, do not relate to the compatibility problem that improves cross-linking agent body and homo-polypropylene.The cross-linking foamed metallocene tribasic ethylene propylene rubber composition that CN1045801A and CN1045802A introduce has the flexibility of good elasticity and similar sponge, can be used for producing toy etc., but its correlation technique index has just been emphasized the elasticity of composition.The sulfurized polyolefin plastoelastomer composition that ZL95116987.4 introduces is polypropylene/polyisobutene/EPDM/ high-cis metallocene tribasic ethylene propylene rubber carries out the dynamic vulcanization preparation in Banbury mixer in the presence of superoxide a thermoplastic elastomer, and purpose also just obtains best machinery and elastic property.
Summary of the invention:
The objective of the invention is to address the above problem, a kind of metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density is provided, this cross-linking agent is used for the toughening modifying of homo-polypropylene, obviously be better than other crosslinked toughened systems with the homo-polypropylene consistency, the compatilizer consumption significantly reduces, dispersion particle is evenly distributed, size significantly reduces, and the toughness of matrix material is significantly improved and rigidity and tough sexual balance; Simultaneously, provide its preparation method, its preparation method is easy, environmental friendliness, and addition is few, and production cost is lower, is widely used.
For achieving the above object, the technical solution adopted in the present invention is: a kind of metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density, and it is made up of following compositions: the metallocene tribasic ethylene propylene rubber of mass ratio 50-80%; The new LDPE (film grade) of mass ratio 15-45%; The inorganic rigid particle of mass ratio 0-10%; The peroxide initiator of mass ratio 0.1-1%;
Its degree of crosslinking of metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density is between 65.5~72.1%;
125 ℃ of the mooney viscosity ML (1+4) of metallocene tribasic ethylene propylene rubber are between 20-70;
The long-branch-chain polyethylene that new LDPE (film grade) is produced for the high pressure vapor method, density is at 0.919~0.923g/cm
3Between, melting index MI is between 1.8~3.2g/10min;
Inorganic rigid particle is one or more in talcum powder, barium sulfate, titanium dioxide, lime carbonate, mica powder, aluminum oxide, the white carbon black, and granularity is 3500~4500 orders;
Initiator is an organo-peroxide;
Initiator is a di-t-butyl peroxide (DTBP), 2,5-2 (two " 2,5 " vulcanizing agent);
A kind of preparation method who prepares described metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density is:
1) metallocene tribasic ethylene propylene rubber of mass ratio 50-80%, the new LDPE (film grade) of mass ratio 15-45%, the inorganic rigid particle of mass ratio 0-10%, the peroxide initiator proportioning of mass ratio 0.1-1% are weighed up;
2) order according to metallocene tribasic ethylene propylene rubber, new LDPE (film grade), inorganic rigid particle adds low speed mixer successively, under the normal temperature pre-mixing 2-3 minute;
3) with the pre-composition that slowly adds in the organic peroxide evocating agent two minutes in the low speed mixer, normal temperature mixed 6-8 minute down;
4) material that mixes taking-up 3) adds granulation in the homodromy parallel twin screw extruder, and the granulation process condition is that (a) each section temperature is between 170-195 ℃; (b) screw speed is between 150-250 rev/min; (c) the feeding machine rotating speed is between 20-50 rev/min; The fervent pelletizing of water ring die face;
Described metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density is used for the toughening modifying of homo-polypropylene;
When affiliated metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density was used for the toughening modifying of homo-polypropylene, the ratio of being added was the 5-12% of homo-polypropylene quality.
This cross-linking agent and homo-polypropylene consistency obviously are better than other crosslinked toughened systems, and the compatilizer consumption significantly reduces, and dispersion particle is evenly distributed, size significantly reduces, and the toughness of matrix material is significantly improved and rigidity and tough sexual balance.
The crosslinking degree of metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density provided by the invention is represented with degree of crosslinking, adopts Soxhlet extractor dimethylbenzene extracting insolubles (gel) wherein, and the per-cent of calculated for gel content and cross-linked resin total amount promptly.
Metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density provided by the invention is used for the toughening modifying of homo-polypropylene, it improves the principle of work of the impelling strength of homo-polypropylene: metallocene tribasic ethylene propylene rubber is formed distribution and even molecular weight distribution, Molecular Structure Design is meticulous, have good winter hardiness, flexible resistance and snappiness, heat-resisting, anti-ozone, UV resistant are very suitable for preparing high performance engineering plastic materials.This metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density has relatively evenly perfect network structure, and the existence of inorganic rigid particle has further formed typically " nuclear-shell " structure.Mechanical property experiment simultaneously shows, metallocene tribasic ethylene propylene rubber and low density polyethylene cross-linked after, its tensile strength and shearing resistance descend more than 30%, with compound uses of other auxiliary agents such as expanding material and oxidation inhibitor, under the effect of shear-stress, dispersion when helping more with the homo-polypropylene blend, form trickleer discrete particles, until forming is perfect interpenetrating(polymer)networks (IPN) more, absorb the impact energy that puts on matrix material effectively, thereby obtain significant toughening effect with less consumption.Simultaneously owing to contain a certain proportion of propylene units in the metallocene tribasic ethylene propylene rubber molecular structure, strengthen greatly with the consistency of matrix resin homo-polypropylene, need not to add a large amount of block copolymerization polypropylene compatilizers and can obtain good consistency, therefore can significantly reduce the consumption of compatilizer, both guaranteed that matrix material had high rigidity and high tenacity, reduced production cost again to a certain extent.
From above-mentioned principle of work as can be seen, compared with prior art, cross-linking agent of the present invention can significantly improve the impelling strength of homo-polypropylene under lower compatilizer consumption, can obtain high rigidity high tenacity homo-polypropylene modified composite material.Under same proportioning, metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density is compared with independent use metallocene tribasic ethylene propylene rubber, and the normal temperature shock strength of homo-polypropylene matrix material improves 4.1-6.2 doubly; Compare with POE/ high density polyethylene(HDPE) toughened master batch ,-20 ℃ shock strength of homo-polypropylene matrix material improves 1.7-2.1 doubly.In addition, compare with other cross-linking agent toughened systems, the required compatilizer block copolymerization polypropylene consumption of metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density of the present invention still less more helps reducing cost.
Embodiment 1:
Getting model is that 125 ℃ of NORDEL IP 3745P, mooney viscosity ML (1+4) are 45 metallocene tribasic ethylene propylene rubber 1945g; (density is 0.920g/cm to the new LDPE (film grade) that the high pressure vapor method is produced
3, melting index MI is 2.0g/10min) and 1046g; Organic peroxide evocating agent is di-t-butyl peroxide DTBP 9g, inorganic rigid particle 0 gram.NORDEL IP 3745P and new LDPE (film grade) are put into low speed mixer in proper order, and normal temperature mixed 3 minutes down, slowly added DTBP in two minutes, and normal temperature mixed 6 minutes down, formed mixture; Then, mixture is added granulation in the cocurrent and parallel twin screw extruder.Extruder temperature is distributed as, 170 ℃ of district's temperature, 185 ℃ of two district's temperature, 190 ℃ of three district's temperature, 195 ℃ of four district's temperature, 195 ℃ of five district's temperature, 195 ℃ of six district's temperature, 195 ℃ of seven district's temperature, 195 ℃ of eight district's temperature.200 rev/mins of screw speeds, 30 rev/mins of feeding machine rotating speeds; The water ring die face cutting, metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density, degree of crosslinking 65.5%.
This cross-linking agent 75g, adding model is the homo-polypropylene 770g of B200, model is the Co-polypropylene 150g of K8303, antioxidant 1010 2g, oxidation inhibitor 1683g obtains high rigidity high-toughness polypropylene blend, its tensile strength: 29.5MPa; Elongation at break: 331%; Flexural strength: 32.6MPa; Modulus in flexure: 1455MPa; Notched Izod impact strength in the time of IZOD23 ℃: 563.9J/m; Notched Izod impact strength in the time of IZOD-20 ℃: 78.6J/m.
Embodiment 2:
Most of with embodiment 1, difference is, two " 2, the 5 " vulcanizing agents of organic peroxide evocating agent.This metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density degree of crosslinking 68.3%.
This cross-linking agent 75g, adding model is the homo-polypropylene 770g of B200, model is the Co-polypropylene 150g of K8303, antioxidant 1010 2g, oxidation inhibitor 1683g obtains high rigidity high-toughness polypropylene blend, its tensile strength: 30.2MPa; Elongation at break: 312%; Flexural strength: 32.1MPa; Modulus in flexure: 1507MPa; Notched Izod impact strength in the time of IZOD23 ℃: 601.4J/m; Notched Izod impact strength in the time of IZOD-20 ℃: 82.3J/m.
Embodiment 3:
Most of with embodiment 1, difference is that getting model is that 125 ℃ of NORDEL IP3720P, mooney viscosity ML (1+4) are 20 metallocene tribasic ethylene propylene rubber 1942g; (density is 0.923g/cm to the new LDPE (film grade) that the high pressure vapor method is produced
3, melting index MI is 3.2g/10min) and 1043g; Two " 2, the 5 " vulcanizing agents of organic peroxide evocating agent, 15 grams; 150 rev/mins of screw speeds, 20 rev/mins of feeding machine rotating speeds.This metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density degree of crosslinking 69.8%.
This cross-linking agent 75g, adding model is the homo-polypropylene 770g of B200, model is the Co-polypropylene 150g of K8303, antioxidant 1010 2g, oxidation inhibitor 1683g obtains high rigidity high-toughness polypropylene blend, its tensile strength: 32.3MPa; Elongation at break: 308%; Flexural strength: 33.8MPa; Modulus in flexure: 1570MPa; Notched Izod impact strength in the time of IZOD23 ℃: 652.7J/m; Notched Izod impact strength in the time of IZOD-20 ℃: 85.4J/m.
Embodiment 4:
Most of with embodiment 1, difference is that getting model is that 125 ℃ of NORDEL IP4770R, mooney viscosity ML (1+4) are 70 metallocene tribasic ethylene propylene rubber 1650g; (density is 0.923g/cm to the long-chain branch new LDPE (film grade) that the high pressure vapor method is produced
3, melting index MI is 1.8g/10min) and 1035g; Organic peroxide evocating agent is two " 2,5 " vulcanizing agent 15g, and inorganic rigid particle is barium sulfate 300g, and granularity is 3500 orders.This metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density degree of crosslinking 71.2%.
This cross-linking agent 75g, adding model is the homo-polypropylene 770g of B200, model is the Co-polypropylene 150g of K8303, antioxidant 1010 2g, oxidation inhibitor 1683g obtains high rigidity high-toughness polypropylene blend, its tensile strength: 33.4MPa; Elongation at break: 295%; Flexural strength: 33.7MPa; Modulus in flexure: 1589MPa; Notched Izod impact strength in the time of IZOD23 ℃: 798.2J/m; Notched Izod impact strength in the time of IZOD-20 ℃: 92.6J/m.
Embodiment 5:
Most of difference is that inorganic rigid particle is white carbon black 300g with embodiment 4, and granularity is 4500 orders.This metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density degree of crosslinking 72.1%.
This cross-linking agent 75g, adding model is the homo-polypropylene 770g of B200, model is the Co-polypropylene 150g of K8303, antioxidant 1010 2g, oxidation inhibitor 1683g obtains high rigidity high-toughness polypropylene blend, its tensile strength: 33.6MPa; Elongation at break: 301%; Flexural strength: 34.5MPa; Modulus in flexure: 1611MPa; Notched Izod impact strength in the time of IZOD23 ℃: 853.5J/m; Notched Izod impact strength in the time of IZOD-20 ℃: 95.2J/m.
Embodiment 6:
Most of with embodiment 1, difference is that getting model is that 125 ℃ of NORDEL IP3725P, mooney viscosity ML (1+4) are 25 metallocene tribasic ethylene propylene rubber 1500g; (density is 0.920g/cm to the new LDPE (film grade) that the high pressure vapor method is produced
3, melting index MI is 2.0g/10min) and 1335g; Organic peroxide evocating agent is two " 2,5 " vulcanizing agent 15g, and inorganic rigid particle is the 150g that barium sulfate, titanium dioxide, lime carbonate, mica powder and aluminum oxide are divided equally, and granularity is 4000 orders; 250 rev/mins of screw speeds, 50 rev/mins of feeding machine rotating speeds; The water ring die face cutting, metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density, degree of crosslinking 68.1%.
This cross-linking agent 75g, adding model is the homo-polypropylene 770g of B200, model is the Co-polypropylene 150g of K8303, antioxidant 1010 2g, oxidation inhibitor 1683g obtains high rigidity high-toughness polypropylene blend, its tensile strength: 30.1MPa; Elongation at break: 303%; Flexural strength: 32.4MPa; Modulus in flexure: 1476MPa; Notched Izod impact strength in the time of IZOD23 ℃: 621.1J/m; Notched Izod impact strength in the time of IZOD-20 ℃: 83.7J/m.
Contrast application examples 1
Do not adopt cross-linking agent to make toughner, and adopt metallocene tribasic ethylene propylene rubber NORDEL IP 3745P 75g, adding model is the homo-polypropylene 920g of B200, antioxidant 1010 2g, oxidation inhibitor 1683g obtains the toughening modifying polypropylene blend, its tensile strength: 28.3MPa; Elongation at break: 351%; Flexural strength: 30.2MPa; Modulus in flexure: 1401MPa; Notched Izod impact strength: 137.5J/m during 23 ℃ of IZOD; Notched Izod impact strength in the time of IZOD-20 ℃: 51.1J/m.
Contrast application examples 2
Do not adopt cross-linking agent to make toughner, and the described POE/HDPE cross-linking agent of employing patent CN01114932.9 75g, adding model is the homo-polypropylene 660g of B200, model is the Co-polypropylene 260g of K8303, antioxidant 1010 2g, oxidation inhibitor 1683g obtains the toughening modifying polypropylene blend, its tensile strength: 30.7MPa; Elongation at break: 320%; Flexural strength: 31.8MPa; Modulus in flexure: 1420MPa; Notched Izod impact strength in the time of IZOD23 ℃: 827.2J/m; Notched Izod impact strength in the time of IZOD-20 ℃: 57.3J/m.
Contrast application examples 3
Do not adopt cross-linking agent to make toughner, and the described POE/HDPE cross-linking agent of employing patent CN01114932.9 75g, adding model is the homo-polypropylene 770g of B200, model is the Co-polypropylene 150g of K8303, antioxidant 1010 2g, oxidation inhibitor 1683g obtains the toughening modifying polypropylene blend, its tensile strength: 31.8MPa; Elongation at break: 334%; Flexural strength: 32.0MPa; Modulus in flexure: 1450MPa; Notched Izod impact strength in the time of IZOD23 ℃: 489.5J/m; Notched Izod impact strength in the time of IZOD-20 ℃: 45.7J/m.
In sum, metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density provided by the invention is used for the toughening modifying of homo-polypropylene, it improves the principle of work of the impelling strength of homo-polypropylene: metallocene tribasic ethylene propylene rubber is formed distribution and even molecular weight distribution, Molecular Structure Design is meticulous, have good winter hardiness, flexible resistance and snappiness, heat-resisting, anti-ozone, UV resistant are very suitable for preparing high performance engineering plastic materials.This metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density has relatively evenly perfect network structure, and the existence of inorganic rigid particle has further formed typically " nuclear-shell " structure.Mechanical property experiment simultaneously shows, metallocene tribasic ethylene propylene rubber and low density polyethylene cross-linked after, its tensile strength and shearing resistance descend more than 30%, with compound uses of other auxiliary agents such as expanding material and oxidation inhibitor, under the effect of shear-stress, dispersion when helping more with the homo-polypropylene blend, form trickleer discrete particles, until forming is perfect interpenetrating(polymer)networks (IPN) more, absorb the impact energy that puts on matrix material effectively, thereby obtain significant toughening effect with less consumption.Simultaneously owing to contain a certain proportion of propylene units in the metallocene tribasic ethylene propylene rubber molecular structure, strengthen greatly with the consistency of matrix resin homo-polypropylene, need not to add a large amount of block copolymerization polypropylene compatilizers and can obtain good consistency, therefore can significantly reduce the consumption of compatilizer, both guaranteed that matrix material had high rigidity and high tenacity, reduced production cost again to a certain extent.
From above-mentioned principle of work as can be seen, compared with prior art, cross-linking agent of the present invention can significantly improve the impelling strength of homo-polypropylene under lower compatilizer consumption, can obtain high rigidity high tenacity homo-polypropylene modified composite material.Under same proportioning, metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density is compared with independent use metallocene tribasic ethylene propylene rubber, and the normal temperature shock strength of homo-polypropylene matrix material improves 4.1-6.2 doubly; Compare with POE/ high density polyethylene(HDPE) toughened master batch ,-20 ℃ shock strength of homo-polypropylene matrix material improves 1.7-2.1 doubly.In addition, compare with other cross-linking agent toughened systems, the required compatilizer block copolymerization polypropylene consumption of metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density of the present invention still less more helps reducing cost.
Obviously, the above embodiment of the present invention only is for example of the present invention clearly is described, and is not to be qualification to embodiments of the present invention.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here need not also can't give exhaustive to all embodiments.And these belong to conspicuous variation or the change that spirit of the present invention extended out and still are among protection scope of the present invention.
Claims (10)
1, a kind of metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density, it is characterized in that: it is made up of following compositions: the metallocene tribasic ethylene propylene rubber of mass ratio 50-80%; The new LDPE (film grade) of mass ratio 15-45%; The inorganic rigid particle of mass ratio 0-10%; The peroxide initiator of mass ratio 0.1-1%.
2, metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density according to claim 1 is characterized in that: its degree of crosslinking of described metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density is between 65.5~72.1%.
3, metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density according to claim 1 is characterized in that: 125 ℃ of the mooney viscosity ML (1+4) of described metallocene tribasic ethylene propylene rubber are between 20~70.
4, metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density according to claim 1 is characterized in that: the long-branch-chain polyethylene that described new LDPE (film grade) is produced for the high pressure vapor method, density is at 0.919~0.923g/cm
3Between, melting index MI is between 1.8~3.2g/10min.
5, metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density according to claim 1, it is characterized in that: described inorganic rigid particle is one or more in talcum powder, barium sulfate, titanium dioxide, lime carbonate, mica powder, aluminum oxide, the white carbon black, and granularity is 3500~4500 orders.
6, metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density according to claim 1 is characterized in that: described initiator is an organo-peroxide.
7, metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density according to claim 1 is characterized in that: described initiator is di-t-butyl peroxide or 2,5-dimethyl-2,5-two hexanes.
8, a kind of preparation method who prepares metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density as claimed in claim 1 is:
1) metallocene tribasic ethylene propylene rubber of mass ratio 50-80%, the new LDPE (film grade) of mass ratio 15-45%, the inorganic rigid particle of mass ratio 0-10%, the peroxide initiator proportioning of mass ratio 0.1-1% are weighed up;
2) order according to metallocene tribasic ethylene propylene rubber, new LDPE (film grade), inorganic rigid particle adds mixing machine successively, under the normal temperature pre-mixing 2-3 minute;
3) with organic peroxide evocating agent slow pre-composition that adds in the mixing machine in two minutes, normal temperature mixed 6-8 minute down;
4) material that mixes taking-up 3) adds granulation in the homodromy parallel twin screw extruder, and the granulation process condition is that (a) each section temperature is between 170-195 ℃; (b) screw speed is between 150-250 rev/min; (c) the feeding machine rotating speed is between 20-50 rev/min; The fervent pelletizing of water ring die face.
9, metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density according to claim 1 is characterized in that: this metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density is used for the toughening modifying of homo-polypropylene.
10, according to claim 1,9 described metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density, it is characterized in that: when described metallocene tribasic ethylene propylene rubber-polyethylene crosslinking substance in low density was used for the toughening modifying of homo-polypropylene, the ratio of being added was the 5-12% of homo-polypropylene quality.
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102153798A (en) * | 2011-01-25 | 2011-08-17 | 云梦县德邦实业有限责任公司 | Polyolefine toughener |
| CN102558837A (en) * | 2010-12-21 | 2012-07-11 | 上海日之升新技术发展有限公司 | Low temperature impact resistant nylon flexibilizer and preparation method of low temperature impact resistant nylon flexibilizer |
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| CN1045801A (en) * | 1990-04-30 | 1990-10-03 | 中国燕山联合对外贸易有限公司 | But a kind of polybutadiene rubber composite of sulfur foam |
| CN1026239C (en) * | 1991-10-30 | 1994-10-19 | 北京化工学院 | Thermoplastic ethylene-propylene rubber/polyolefine elastomer and its prepn. |
| IT1274746B (en) * | 1994-08-30 | 1997-07-24 | Enichem Elastomers | VULCANIZED POLYOLEFINIC PLASTOELASTOMERIC COMPOSITION AND PROCEDURE FOR ITS PREPARATION |
| US5635262A (en) * | 1994-12-12 | 1997-06-03 | Exxon Chemical Patents Inc. | High molecular weight high density polyethylene with improved tear resistance |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102558837A (en) * | 2010-12-21 | 2012-07-11 | 上海日之升新技术发展有限公司 | Low temperature impact resistant nylon flexibilizer and preparation method of low temperature impact resistant nylon flexibilizer |
| CN102153798A (en) * | 2011-01-25 | 2011-08-17 | 云梦县德邦实业有限责任公司 | Polyolefine toughener |
| CN102153798B (en) * | 2011-01-25 | 2012-12-19 | 云梦县德邦实业有限责任公司 | Polyolefine toughener |
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| CN1325553C (en) | 2007-07-11 |
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