CN1508163A - Method for preparing phenylethylene copolymer - Google Patents

Method for preparing phenylethylene copolymer Download PDF

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CN1508163A
CN1508163A CNA02157877XA CN02157877A CN1508163A CN 1508163 A CN1508163 A CN 1508163A CN A02157877X A CNA02157877X A CN A02157877XA CN 02157877 A CN02157877 A CN 02157877A CN 1508163 A CN1508163 A CN 1508163A
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ratio
catalyst
vinylbenzene
promotor
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CN1212341C (en
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泽 李
李泽
・霍华德
胡友良
洪瀚
马志
柯毓才
丁瑞东
科尔文·霍华德
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Solvey Engineering Plastics Company Usa
Institute of Chemistry CAS
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Solvey Engineering Plastics Company Usa
Institute of Chemistry CAS
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Abstract

The method for preparing styrene copolymker uses 4(1-alkenyl) styrene as important raw material and adopts the following steps: making said raw material and alpha-olefines, such as ethane, propene and 1-butylene, etc. or conjugated diolefines, such as 1,3-butadiene and isoprene, etc. implement copolymerization to obtain the copolymer which has the main chains of poly-alpha-olefines, such as polyethylene, polypropylene and poly-1-butylene, etc. or polyconjugated diolefines, such as poly-1,3-butadiene and polyisoprene, etc. and whose side group or end group contains styrene group; then making the obtained copolymer and styrene implement copolymerization so as to conveniently obtain the graft copolymer or block copolymer of alpha-olefines, such as ethane, propene and 1-butylene, etc. or conjugated diolefines, such as 1,3-butadiene and isoprene, etc. and styrene.

Description

A kind of method for preparing styrol copolymer
Technical field
The present invention relates to a kind of method for preparing styrol copolymer.
Background technology
Reason owing to the chemical structure aspect, vinylbenzene and other alkene are difficult to realize copolymerization, relevant report is considerably less, even can make the multipolymer of vinylbenzene and other alkene, the content of vinylbenzene segment is also considerably less in the multipolymer, vinylbenzene segment and other alkene segmental steric configuration can not change easily in the multipolymer, maybe can only make the multipolymer that random polystyrene and other alkene segment are formed.
In bibliographical information, the synthesizing styrene multipolymer mainly contains following several method:
First method is directly to make two kinds of monomers carry out copolymerization with metallocene catalyst or Ziegler-Natta catalyst.Vinylbenzene and ethylene copolymer, once Bao Dao catalyst system as:
TiCl 3/ MAO[Macromolecules, 24,5476 (1991)]; CpTiCl 3/ MAO, Ti (OR) 4/ MAO[Japanese Patent 205987,3087301]; CpTi (Oph) 3/ MAO[Macromolecules, 30,685 (1997)]; Ti (Benzyl) 4/ borine [Macromolecules, 29,1158 (1996)] etc.
Vinylbenzene and copolymerization of propylene, once Bao Dao catalyst system as:
TiCl 4/ NbCl x(OR) y/ MgCl 2/ Pb 2SiCl 2/ EB[polymer journal, 4,416 (1996)];
TiCl 3Or Cp 2TiMe 2/ AlEt 3[Macromolecules, 22 (7), 2875 (1989)] etc.
Vinylbenzene and isoprene copolymer, once Bao Dao catalyst system prepared styrol copolymer in this way as acetylacetonate nickel (II)/MAO etc., and vinylbenzene segment content is few in the multipolymer, uncontrollable, each segmental three-dimensional arrangement can easily not regulated and control.
Second method is to use placed in-line method, makes other olefinic polymerization earlier, adds vinylbenzene again, makes the multipolymer of vinylbenzene and other alkene, as [SCI, 21 (10), 1593 (2000) such as Lin Shangan; The polymer journal, 5 (5), 649 (2000)] use Cp in this way *Ti (Obz) 3/ MAO makes catalyzer, has prepared propylene-styrene and 1-butylene-styrol copolymer.Prepare styrol copolymer in this way, exist the shortcoming that each segment three-dimensional arrangement can not be regulated and control easily in the multipolymer equally.
The third method is the method with living polymerization, as:
[Macromolecules, 32,8234 (1999)] such as Shigetaka Shimada prepare propylene and styrol copolymer with active free radical polymerization; T.C.Chung[Journal ofThe American ChemicalSociety, 123 (21), 4871 (2001)] etc. usefulness living chain shift reaction prepares propylene and styrol copolymer, can only obtain containing random polystyrene segmental multipolymer in this way.
Summary of the invention
The object of the present invention is to provide a kind of method for preparing styrol copolymer, the present invention's synthesizing styrene grafting easily, segmented copolymer, cinnamic content and each segmental chemistry three-dimensional arrangement can be regulated and control easily in the multipolymer.
For achieving the above object, the present invention adopts 4 (1-thiazolinyl) vinylbenzene as important source material, and the chemical structural formula of this raw material is as follows:
M in the formula 〉=1, and m is an integer.
Method provided by the invention makes it earlier and alpha-olefin, as ethene, propylene, 1-butylene etc., or conjugated diene, as 1, copolymerization such as 3-divinyl, isoprene, prepare and have poly-alpha olefins, as polyethylene, polypropylene, poly-1-butylene etc., or poly-conjugated-diolefin, as main chains such as poly-1,3-butadiene, polyisoprene, side group or end group contain the multipolymer of styrene group, make the multipolymer that obtains and styrene copolymerized again, thereby obtain alpha-olefin easily, as ethene, propylene, 1-butylene etc.; Or conjugated diene, as 1,3-butadiene, isoprene etc. and cinnamic grafting or segmented copolymer, thereby solving deficiency in the above-mentioned research, synthetic easily alpha-olefin is as ethene, propylene, 1-butylene etc.; Or conjugated diene, as 1,3-butadiene, isoprene etc. and cinnamic multipolymer; Each segmental content and three-dimensional arrangement can be regulated and control easily in the multipolymer, have reached to carry out the effect that molecule is cut out to polymkeric substance.
Preparation method of the present invention follows these steps to carry out:
One, synthesising graft copolymer:
A) under the nitrogen atmosphere, be raw material with 4 (1-thiazolinyl) vinylbenzene, add toluene and promotor, promotor can be an alkylaluminoxane.The ratio of raw material and toluene is 0.001~0.5, and the ratio of raw material and promotor is 0.1~10000,30~100 ℃ and stirred 5~10 minutes that add catalyst I, catalyst I can be the compound of Ti, Zr, Hf, Co or Nd; The ratio of catalyst I and raw material is 1 * 10 -5~0.1,30~100 ℃ were stirred 5~10 minutes, and press raw material: alpha-olefin or conjugated diene=0.01: 100~30: 100 add alpha-olefin or conjugated diene, and the pressure of maintenance alpha-olefin or conjugated diene is at 770mmHg, polymerase 10 .5~1 hour; Add the ethanol solution hydrochloride termination reaction of 10% (volume ratio), the volume of ethanol solution hydrochloride and the volume ratio of reaction solution are 0.1~100, filter to obtain white solid, and with second alcohol and water thorough washing, 50~120 ℃ of vacuum-dryings obtain product A;
B) under the nitrogen atmosphere, add product A and toluene in reactor, the ratio of product A and toluene is 0.002~0.5,50~70 ℃ of stirring and dissolving, add vinylbenzene and promotor, the ratio of vinylbenzene and product A is 0.001~50, and the ratio of promotor and product A is 1 * 10 -5~0.1,50~70 ℃ were stirred 5~10 minutes, added catalyst I I, and catalyst I I can be the compound of Ti, Zr, Hf, V, Nb, Ta, Co, Ni or Cr; Catalyst I I and cinnamic ratio are 1 * 10 -5~0.1,50~70 ℃ were stirred 0.5~1 hour; Add the ethanol solution hydrochloride termination reaction of 10% (volume ratio), the volume of ethanol solution hydrochloride and the volume ratio of reaction solution are 0.1~100, filter to obtain white solid, and with second alcohol and water thorough washing, 50~120 ℃ of vacuum-dryings obtain target product;
Two, synthetic segmented copolymer:
With synthesising graft copolymer method difference in step a, specifically the method for synthetic segmented copolymer is:
Under the nitrogen atmosphere, add toluene and promotor, promotor is an alkylaluminoxane, and the ratio of toluene and promotor is 10~10000,30~100 ℃ and stirred 5~10 minutes that add catalyst I, described catalyst I is the compound of Ti, Zr, Hf, Co or Nd; The ratio of catalyst I and promotor is 1 * 10 -6~0.1,30~100 ℃ were stirred 5~10 minutes, add alpha-olefin or conjugated diene, the ratio of alpha-olefin or conjugated diene and toluene is 0.001~1, polymerase 10 .5-1 hour, add 4 (1-thiazolinyl) vinylbenzene, the ratio of 4 (1-thiazolinyl) vinylbenzene and alpha-olefin or conjugated diene is 1 * 10 -61 * 10 -2, 30~100 ℃ were stirred 0.5~1 hour; Add the ethanol solution hydrochloride termination reaction of 10% (volume ratio), the volume of ethanol solution hydrochloride and the volume ratio of reaction solution are 0.1~100, filter to obtain white solid, and with second alcohol and water thorough washing, 50~120 ℃ of vacuum-dryings obtain product A.
Step b is identical with the method for synthesising graft copolymer.
The various raw materials that relate in the aforesaid method, solvent are all done dehydration and deoxidation and are handled.
But the catalyst I that relates in the aforesaid method is catalysis alpha-olefin or conjugated dienes polymeric catalyzer, and the compound of metal M t such as Ti, Zr, Hf, Co or Nd normally is as Et (Ind) 2ZrCl 2, Me 2Si (Ind) 2ZrCl 2, Et (Ind) 2ZrMe 2, Me 2Si (Ind) 2ZrMe 2, Cp *SiMe 2NBu tZrCl 2, Cp *SiMe 2NBu tTiCl 2, IndSiMe 2NBu tZrCl 2, Cp *Ti (OBz) 3, Co (acac) 3Or isopropoxy neodymium (III) etc.
The catalyst I I that relates in the aforesaid method is catalyzer that can be polymerizing styrene catalyzed, and the compound of metal M t such as Ti, Zr, Hf, V, Nb, Ta, Co, Ni or Cr normally is as TiCl 4, CpTiCl 3, Cp 2TiCl 2, Ti (acac) 2Cl 2, ZrCl 4, CpZrCl 3, Cp 2ZrCl 2, Cp 2HfCl 2, Cp 2VCl 2, Nb (OC 2H 5) 5, Ta (OC 2H 5) 5, Cr (acac) 3, Co (acac) 3Or Ni (acac) 2Deng.
Catalyst I or II concentration are 2 * 10 -6Mol/L~200 * 10 -6Mol/L, the best is 10 * 10 -6Mol/L~100 * 10 -6Mol/L.
The promotor that relates in the aforesaid method is an alkylaluminoxane, as methylaluminoxane (MAO), ethyl aikyiaiurnirsoxan beta (EAO) or isobutyl aluminium alkoxide (iBAO) etc., wherein be best with MAO, maintenance Al/Mt mol ratio=500: 1~5000: 1, the best is 1000: 1~3000: 1.
Embodiment
EXAMPLE l
1) all operations all carries out under the condition of anhydrous and oxygen-free, and all solvents are all done dehydration and deoxidation and handled.
A, monomer: ethene, vinylbenzene, 4 (1-butylene base) vinylbenzene;
B, catalyst I: Et (Ind) 2ZrCl 2Catalyst I I:CpTiCl 3Promotor: MAO;
2) with 250mL there-necked flask nitrogen replacement three times that agitator is housed, feed ethene then, add 100mL toluene, be warming up to 50 ℃, add 0.1 gram 4 (1-butylene base) vinylbenzene, stir and add MAO[(Al/Zr down)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I: Et (Ind) 2ZrCl 2, react after 30 minutes, reaction solution is poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtain the cinnamic multipolymer of ethene and 4 (1-butylene base) through ethanol and water washing, vacuum-drying;
3) get the two-mouth bottle that polymkeric substance 10 grams that step 2 obtains are put into a 100mL, with nitrogen replacement three times, add 50mL toluene, be warming up to 50 ℃, after treating that polymkeric substance dissolves fully, add 5 gram vinylbenzene, add MAO[(Al/Ti)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I I:CpTiCl 3, reacted 2 hours, reaction solution is poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtain polycthylene grafted copolymerization polystyrene through ethanol and water washing, vacuum-drying.Its operational condition and polymer architecture feature are listed in the table 1.
Embodiment 2
1) all operations all carries out under the condition of anhydrous and oxygen-free, and all solvents are all done dehydration and deoxidation and handled.
A, monomer: propylene, vinylbenzene, 4 (1-butylene base) vinylbenzene;
B, catalyst I: Me 2Si (Ind) 2ZrCl 2Catalyst I I:CpTiCl 3Promotor: MAO;
2) with 250mL there-necked flask nitrogen replacement three times that agitator is housed, feed propylene then, add 100mL toluene, be warming up to 50 ℃, add 0.1 gram 4 (1-butylene base) vinylbenzene, stir and add MAO[(Al/Zr down)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I: Me 2Si (Ind) 2ZrCl 2, react after 30 minutes, reaction solution is poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtain third rare and 4 (1-butylene base) styrol copolymer through ethanol and water washing, vacuum-drying;
3) get the two-mouth bottle that polymkeric substance 5 grams that step 2 obtains are put into a 100mL, with nitrogen replacement three times, add 50mL toluene, be warming up to 50 ℃, after treating that polymkeric substance dissolves fully, add 5 gram vinylbenzene, add MAO[(Al/Ti)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I I:CpTiCl 3, reacted 2 hours, reaction solution is poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtain polypropylene graft copolymerization polystyrene through ethanol and water washing, vacuum-drying.Its operational condition and polymer architecture feature are listed in the table 1.
Embodiment 3
1) all operations all carries out under the condition of anhydrous and oxygen-free, and all solvents are all done dehydration and deoxidation and handled.
A, monomer: 1-butylene, 4 (1-butylene base) vinylbenzene, vinylbenzene, 4 (1-butylene base) vinylbenzene
B, catalyst I: Cp *Ti (OBz) 3Catalyst I I:CpTiCl 3Promotor: MAO;
2) with 250mL there-necked flask nitrogen replacement three times that agitator is housed, feed 1-butylene then, add 100mL toluene, be warming up to 50 ℃, add 0.3 gram 4 (1-butylene base) vinylbenzene, stir and add MAO[(Al/Ti down)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I: Cp *Ti (OBz) 3, react after 30 minutes, reaction solution is poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtain 1-butylene and 4 (1-butylene base) styrol copolymer through ethanol and water washing, vacuum-drying;
3) get the two-mouth bottle that polymkeric substance 8 grams that step 2 obtains are put into a 100mL, with nitrogen replacement three times, add 50mL toluene, be warming up to 50 ℃, after treating that polymkeric substance dissolves fully, add 10 gram vinylbenzene, add MAO[(Al/Ti)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I I:Ti (acac) 2Cl 2, reacted 2 hours, reaction solution is poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtain poly-1-butylene graft copolymerization polystyrene through ethanol and water washing, vacuum-drying.Its operational condition and polymer architecture feature are listed in the table 1.
Embodiment 4
1) all operations all carries out under the condition of anhydrous and oxygen-free, and all solvents are all done dehydration and deoxidation and handled.
A, monomer: 1,3-butadiene, 4 (1-butylene base) vinylbenzene, vinylbenzene, 4 (1-butylene base) vinylbenzene;
B, catalyst I: Co (acac) 3Catalyst I I:CpTiCl 3Promotor: MAO;
2) with 250mL there-necked flask nitrogen replacement three times that agitator is housed, feed 1 then, the 3-divinyl, add 100mL toluene, be warming up to 50 ℃, add 0.1 gram 4 (1-butylene base) vinylbenzene, stir adding MAO[(Al/Co down)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I: Co (acac) 3, react after 30 minutes, reaction solution is poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtain 1,3-butadiene and 4 (1-butylene base) styrol copolymer through ethanol and water washing, vacuum-drying;
3) get the two-mouth bottle that polymkeric substance 5 grams that step 2 obtains are put into a 100mL, with nitrogen replacement three times, add 50mL toluene, be warming up to 50 ℃, after treating that polymkeric substance dissolves fully, add 10 gram vinylbenzene, add MAO[(Al/Ti)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I I:CpTiCl 3, reacted 2 hours, reaction solution is poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtain poly-1,3-butadiene graft copolymerization polystyrene through ethanol and water washing, vacuum-drying.Its operational condition and polymer architecture feature are listed in the table 1.
Embodiment 5
1) all operations all carries out under the condition of anhydrous and oxygen-free, and all solvents are all done dehydration and deoxidation and handled.
A, monomer: isoprene, vinylbenzene, 4 (1-butylene base) vinylbenzene;
B, catalyst I: isopropoxy neodymium (III); Catalyst I I:CpTiCl 3Promotor: MAO;
2) with 250mL there-necked flask nitrogen replacement three times that agitator is housed, add 10 gram isoprene then, add 100mL toluene, be warming up to 50 ℃, add 0.2 gram 4 (1-butylene base) vinylbenzene, stir and add MAO[(Al/Nd down)=2000: 1 (mol ratio)], stir after 2 minutes, add the 2mg catalyst I: isopropoxy neodymium (III), react after 30 minutes, reaction solution is poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtain isoprene and 4 (1-butylene base) styrol copolymer through ethanol and water washing, vacuum-drying;
3) get the two-mouth bottle that polymkeric substance 5 grams that step 2 obtains are put into a 100mL, with nitrogen replacement three times, add 50mL toluene, be warming up to 50 ℃, after treating that polymkeric substance dissolves fully, add 15 gram vinylbenzene, add MAO[(Al/Ti)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I I:CpTiCl 3, reacted 2 hours, reaction solution is poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtain polyisoprene graft copolymerization polystyrene through ethanol and water washing, vacuum-drying.Its operational condition and polymer architecture feature are listed in the table 1.
Embodiment 6
1) all operations all carries out under the condition of anhydrous and oxygen-free, and all solvents are all done dehydration and deoxidation and handled.
A, monomer: ethene, vinylbenzene, 4 (1-butylene base) vinylbenzene;
B, catalyst I: Et (Ind) 2ZrCl 2Catalyst I I:CpTiCl 3Promotor: MAO;
2) with 250mL there-necked flask nitrogen replacement three times that agitator is housed, feed ethene then, add 100mL toluene, be warming up to 50 ℃, stir and add MAO[(Al/Zr down)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I: Et (Ind) 2ZrCl 2, react after 30 minutes, add 1 * 10 -4Gram 4 (1-butylene base) vinylbenzene reacted after 30 minutes, reaction solution was poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtained the polyethylene that end group has styrene group through ethanol and water washing, vacuum-drying;
3) get the two-mouth bottle that the above-mentioned polymkeric substance that obtains 10 grams are put into a 100mL, with nitrogen replacement three times, add 50mL toluene, be warming up to 50 ℃, after treating that polymkeric substance dissolves fully, add 2 gram vinylbenzene, add MAO[(Al/Ti)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I I:CpTiCl 3, reacted 2 hours, reaction solution is poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtain polyethylene block copolymerization polystyrene through ethanol and water washing, vacuum-drying.Its operational condition and polymer architecture feature are listed in the table 1.
Embodiment 7
1) all operations all carries out under the condition of anhydrous and oxygen-free, and all solvents are all done dehydration and deoxidation and handled.
A, monomer: propylene, vinylbenzene, 4 (1-butylene base) vinylbenzene;
B, catalyst I: Me 2Si (Ind) 2ZrCl 2Catalyst I I:CpTiCl 3Promotor: MAO;
2) with 250mL there-necked flask nitrogen replacement three times that agitator is housed, feed propylene then, add 100mL toluene, be warming up to 50 ℃, stir adding MAO[(Al/Zr down)=2000: 1 (mol ratio)], stir after 2 minutes adding 2mg catalyst I: Me 2Si (Ind) 2ZrCl 2, react after 30 minutes, add 1 * 10 -4Gram 4 (1-butylene base) vinylbenzene reacted after 30 minutes, reaction solution was poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtained the polypropylene that end group has styrene group through ethanol and water washing, vacuum-drying;
3) get the two-mouth bottle that polymkeric substance 10 grams that step 2 obtains are put into a 100mL, with nitrogen replacement three times, add 50mL toluene, be warming up to 50 ℃, after treating that polymkeric substance dissolves fully, add 5 gram vinylbenzene, add MAO[(Al/Ti)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I I:CpTiCl 3, reacted 2 hours, reaction solution is poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtain polypropylene block copolymerization polystyrene through ethanol and water washing, vacuum-drying.Its operational condition and polymer architecture feature are listed in the table 1.
Embodiment 8
1) all operations all carries out under the condition of anhydrous and oxygen-free, and all solvents are all done dehydration and deoxidation and handled.
A, monomer: 1-butylene, vinylbenzene, 4 (1-propenyl) vinylbenzene;
B, catalyst I: Cp *Ti (OBz) 3Catalyst I I:CpTiCl 3Promotor: MAO;
2) with 250mL there-necked flask nitrogen replacement three times that agitator is housed, feed 1-butylene then, add 100mL toluene, be warming up to 50 ℃, stir and add MAO[(Al/Ti down)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I: Cp *Ti (OBz) 3, react after 30 minutes, add 1 * 10 -4Gram 4 (1-propenyl) vinylbenzene reacted after 30 minutes, reaction solution was poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtained the poly-1-butylene that end group has styrene group through ethanol and water washing, vacuum-drying;
3) get the two-mouth bottle that the above-mentioned polymkeric substance that obtains 5 grams are put into a 100mL, with nitrogen replacement three times, add 50mL toluene, be warming up to 50 ℃, after treating that polymkeric substance dissolves fully, add 5 gram vinylbenzene, add MAO[(Al/Ti)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I I:Ti (acac) 2Cl 2, reacted 2 hours, reaction solution is poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtain poly-1-butylene block copolymerization polystyrene through ethanol and water washing, vacuum-drying.Its operational condition and polymer architecture feature are listed in the table 1.
Embodiment 9
1) all operations all carries out under the condition of anhydrous and oxygen-free, and all solvents are all done dehydration and deoxidation and handled.
A, monomer: 1,3-butadiene, vinylbenzene, 4 (1-butylene base) vinylbenzene;
B, catalyst I: Co (acac) 3Catalyst I I:CpTiCl 3Promotor: MAO;
2) with 250mL there-necked flask nitrogen replacement three times that agitator is housed, feed 1,3-butadiene then, add 100mL toluene, be warming up to 50 ℃, stir adding MAO[(Al/Co down)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I: Co (acac) 3, react after 30 minutes, add 1 * 10 -4Gram 4 (1-butylene base) vinylbenzene reacted after 30 minutes, reaction solution was poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtained the poly-1,3-butadiene that end group has styrene group through ethanol and water washing, vacuum-drying;
3) get the two-mouth bottle that the above-mentioned polymkeric substance that obtains 5 grams are put into a 100mL, with nitrogen replacement three times, add 50mL toluene, be warming up to 50 ℃, after treating that polymkeric substance dissolves fully, add 10 gram vinylbenzene, add MAO[(Al/Ti)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I I:CpTiCl 3, reacted 2 hours, reaction solution is poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtain poly-1,3-butadiene block copolymerization polystyrene through ethanol and water washing, vacuum-drying.Its operational condition and polymer architecture feature are listed in the table 1.
Embodiment 10
1) all operations all carries out under the condition of anhydrous and oxygen-free, and all solvents are all done dehydration and deoxidation and handled.
A, monomer: isoprene, vinylbenzene, 4 (1-propenyl) vinylbenzene;
B, catalyst I: isopropoxy neodymium (III); Catalyst I I:CpTiCl 3Promotor: MAO;
2) with 250mL there-necked flask nitrogen replacement three times that agitator is housed, feed propylene then, add 100mL toluene, be warming up to 50 ℃, stir and add MAO[(Al/Nd down)=2000: 1 (mol ratio)], stir after 2 minutes, add the 2mg catalyst I: isopropoxy neodymium (III), react after 30 minutes, add 1 * 10 -4Gram 4 (1-propenyl) vinylbenzene reacted after 30 minutes, reaction solution was poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtained the polyisoprene that end group has styrene group through ethanol and water washing, vacuum-drying;
3) get the two-mouth bottle that the above-mentioned polymkeric substance that obtains 4 grams are put into a 100mL, with nitrogen replacement three times, add 50mL toluene, be warming up to 50 ℃, after treating that polymkeric substance dissolves fully, add 20 gram vinylbenzene, add MAO[(Al/Ti)=2000: 1 (mol ratio)], stir after 2 minutes, add 2mg catalyst I I:CpTiCl 3, reacted 2 hours, reaction solution is poured termination reaction in the ethanol solution hydrochloride of 10% (volume ratio), obtain polyisoprene blocks copolymerization polystyrene through ethanol and water washing, vacuum-drying.Its operational condition and polymer architecture feature are listed in the table 1.
The polymerizing condition among table 1, the embodiment and the constitutional features of resulting polymers
Embodiment Catalyst I Catalyst I I Copolymer type The content of polystyrene segment (w/w%) in the multipolymer Poly-alpha olefins or poly-conjugated-diolefin segmental steric configuration The steric configuration of polystyrene segment
??1 ?Et(Ind) 2Z ?rCl 2 ?CpTiCl 3 Grafting ????33 ????/ Syndiotactic
??2 ?Me 2Si(In ?d) 2ZrCl 2 ?CpTiCl 3 Grafting ????50 Isotaxy Syndiotactic
??3 ?Cp *Ti(O ?Bz) 3 ?CpTiCl 3 Grafting ????55 Isotaxy Syndiotactic
??4 ?Co(acac) 3 ?CpTiCl 3 Grafting ????67 Cis Syndiotactic
??5 Isopropoxy neodymium (III) ?CpTiCl 3 Grafting ????75 Cis Syndiotactic
??6 ?Et(Ind) 2Z ?rCl 2 ?CpTiCl 3 Block ????17 ????/ Syndiotactic
??7 ?Me 2Si(In ?d) 2ZrCl 2 ?CpTiCl 3 Block ????33 Isotaxy Syndiotactic
??8 ?Cp *Ti(O ?Bz) 3 ?CpTiCl 3 Block ????50 Isotaxy Syndiotactic
??9 ?Co(acac) 3 ?CpTiCl 3 Block ????67 Cis Syndiotactic
??10 Isopropoxy neodymium (III) ?CpTiCl 3 Block ????83 Cis Syndiotactic

Claims (9)

1, a kind of method for preparing styrol copolymer is a raw material with 4 (1-thiazolinyl) vinylbenzene, with alpha-olefin or conjugated diolefin copolymer, prepares and has poly-alpha olefins or poly-conjugated-diolefin main chain, and its side group or end group contain the multipolymer of styrene group; The multipolymer that obtains and styrene copolymerized obtains the grafting or the segmented copolymer of alpha-olefin or conjugated diene;
The cinnamic structural formula of described 4 (1-thiazolinyls) is:
Figure A0215787700021
M in the formula 〉=1, and m is an integer.
2, the method for claim 1, its key step is as follows:
A) under the nitrogen atmosphere, with 4 (1-thiazolinyl) vinylbenzene is raw material, add toluene and promotor, the ratio of raw material and toluene is 0.001~0.5, the ratio of raw material and promotor is 0.1~10000,30~100 ℃ were stirred 5~10 minutes, added catalyst I, and the ratio of catalyst I and raw material is 1 * 10 -5~0.1,30~100 ℃ were stirred 5~10 minutes, and press raw material: alpha-olefin or conjugated diene=0.01: 100~30: 100 adding alpha-olefin or conjugated diene, polymerase 10 .5~1 hour; Add the ethanol solution hydrochloride termination reaction of 10% (volume ratio), the volume of ethanol solution hydrochloride and the volume ratio of reaction solution are 0.1~100, filter to obtain white solid, and with second alcohol and water thorough washing, 50~120 ℃ of vacuum-dryings obtain product A;
B) under the nitrogen atmosphere, add product A and toluene in reactor, the ratio of product A and toluene is 0.002~0.5,50~70 ℃ of stirring and dissolving, add vinylbenzene and promotor, the ratio of vinylbenzene and product A is 0.001~50, and the ratio of promotor and product A is 1 * 10 -5~0.1,50~70 ℃ were stirred 5~10 minutes, added catalyst I I, and catalyst I I and cinnamic ratio are 1 * 10 -5~0.1,50~70 ℃ were stirred 0.5~1 hour; Add the ethanol solution hydrochloride termination reaction of 10% (volume ratio), the volume of ethanol solution hydrochloride and the volume ratio of reaction solution are 0.1~100, filter to obtain white solid, and with second alcohol and water thorough washing, 50~120 ℃ of vacuum-dryings obtain target product;
Described catalyst I is the compound of Ti, Zr, Hf, Co or Nd;
Described catalyst I I is the compound of Ti, Zr, Hf, V, Nb, Ta, Co, Ni or Cr;
Described promotor is an alkylaluminoxane.
3, the method for claim 1, its key step is as follows:
A) under the nitrogen atmosphere, add toluene and promotor, the ratio of toluene and promotor is 10~10000,30~100 ℃ and stirred 5~10 minutes that add catalyst I, the ratio of catalyst I and promotor is 1 * 10 -6~0.1,30~100 ℃ were stirred 5~10 minutes, add alpha-olefin or conjugated diene, the ratio of alpha-olefin or conjugated diene and toluene is 0.001~1, polymerase 10 .5-1 hour, add 4 (1-thiazolinyl) vinylbenzene, the ratio of 4 (1-thiazolinyl) vinylbenzene and alpha-olefin or conjugated diene is 1 * 10 -6~1 * 10 -2, 30~100 ℃ were stirred 0.5~1 hour; Add the ethanol solution hydrochloride termination reaction of 10% (volume ratio), the volume of ethanol solution hydrochloride and the volume ratio of reaction solution are 0.1~100, filter to obtain white solid, and with second alcohol and water thorough washing, 50~120 ℃ of vacuum-dryings obtain product A;
B) under the nitrogen atmosphere, add product A and toluene in reactor, the ratio of product A and toluene is 0.002~0.5,50~70 ℃ of stirring and dissolving, add vinylbenzene and promotor, the ratio of vinylbenzene and product A is 0.001~50, and the ratio of promotor and product A is 1 * 10 -5~0.1,50~70 ℃ were stirred 5~10 minutes, added catalyst I I, and catalyst I I and cinnamic ratio are 1 * 10 -5~0.1,50~70 ℃ were stirred 0.5~1 hour; Add the ethanol solution hydrochloride termination reaction of 10% (volume ratio), the volume of ethanol solution hydrochloride and the volume ratio of reaction solution are 0.1~100, filter to obtain white solid, and with second alcohol and water thorough washing, 50~120 ℃ of vacuum-dryings obtain target product;
Described catalyst I is the compound of Ti, Zr, Hf, Co or Nd;
Described catalyst I I is the compound of Ti, Zr, Hf, V, Nb, Ta, Co, Ni or Cr;
Described promotor is an alkylaluminoxane.
As claim 1 or 2 or 3 described methods, it is characterized in that 4, described alpha-olefin is ethene, propylene or 1-butylene; Described conjugated diene is 1,3-butadiene or isoprene.
As claim 2 or 3 described methods, it is characterized in that 5, described catalyst I is Et (Ind) 2ZrCl 2, Me 2Si (Ind) 2ZrCl 2, Et (Ind) 2ZrMe 2, Me 2Si (Ind) 2ZrMe 2, Cp *SiMe 2NBu tZrCl 2, Cp *SiMe 2NBu tTiCl 2, IndSiMe 2NBu tZrCl 2, Cp *Ti (OBz) 3, Co (acac) 3Or isopropoxy neodymium (III).
As claim 2 or 3 described methods, it is characterized in that 6, described catalyst I I is TiCl 4, CpTiCl 3, Cp 2TiCl 2, Ti (acac) 2Cl 2, ZrCl 4, CpZrCl 3, Cp 2ZrCl 2, Cp 2HfCl 2, Cp 2VCl 2, Nb (OC 2H 5) 5, Ta (OC 2H 5) 5, Cr (acac) 3, Co (acac) 3Or Ni (acac) 2
As claim 2 or 3 described methods, it is characterized in that 7, described promotor is methylaluminoxane, ethyl aikyiaiurnirsoxan beta or isobutyl aluminium alkoxide.
As claim 2 or 3 described methods, it is characterized in that 8, described various raw materials, solvent are all done dehydration and deoxidation and handled.
As claim 2 or 3 described methods, it is characterized in that 9, the amount of described adding alpha-olefin or conjugated diene is to keep the pressure of alpha-olefin or conjugated diene at 770mmHg.
CN 02157877 2002-12-20 2002-12-20 Method for preparing phenylethylene copolymer Expired - Fee Related CN1212341C (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108570266A (en) * 2018-05-09 2018-09-25 山东七维新材料有限公司 A kind of chemically-resistant type water-based paint compositions and preparation method thereof
CN114213826A (en) * 2022-01-13 2022-03-22 广东迪艾龙新材料科技有限公司 Antistatic modified polyethylene-polylactic acid-based material

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108570266A (en) * 2018-05-09 2018-09-25 山东七维新材料有限公司 A kind of chemically-resistant type water-based paint compositions and preparation method thereof
CN114213826A (en) * 2022-01-13 2022-03-22 广东迪艾龙新材料科技有限公司 Antistatic modified polyethylene-polylactic acid-based material

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