前苏联专利SU1396959A3 Catalytic system for polymerizing butadiene into polybutadiene

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专利摘要:
A new process is described for polymerising and copolymerising conjugate diolefins characterised by the use of a catalytic system comprising at least one compound of Group IIIB of the periodic system, at least one non-halogenated aluminium alkyl, at least one compound containing one or more hydroxyls of acid or neutral type, and possibly an inorganic compound containing CI or Br in ionisable form or an organic halogen derivative. The new process allows the preparation, both in the absence and in the presence of an inert diluent, of polydiolefins of essentially entirely 1,4-cis structure which even in the absence of a purification stage contain a very small quantity of catalytic residues.
公开号:SU1396959A3
申请号:SU833584516
申请日:1983-04-14
公开日:1988-05-15
发明作者:Карбонаро Антонио；Ферраро Доменико
申请人:Эникем Эластомери С.П.А. (Фирма)；
IPC主号:

专利说明:

with so
O5
coke

cm
This invention relates to a catalytic system for the polymerization of butadiene to polybutadiene.
The aim of the invention is to increase the activity of the catalytic system due to the content of a specific neodymium compound, the additional content of a hydroxyl-containing compound, the preferred additional content of a chlorine-containing compound, at a certain molar ratio of the components.
Example. 3.0 ml of solution: Nd (OC4H9) 3 0.028 mmol (10.18 mg); Al () 7H 1.4 mmol (199.11 mg); AI (C2Hj) Cl-i 0.042 mmol (5.33 mg) in hexane is placed in a bottle with a capacity of approximately 1000 ml, the metal bore of a magnetic stirrer is introduced into it to stir the solution, and the bottle is closed with a stopper fitted with a rubber seal. Then, using a syringe, 93 g of butadiene containing 13.9 mg (0.77 mmol) dissolved are injected into the plug using a syringe. The molar ratio of the components: Cl / Nd 3, Al / Nd 50, OH / Nd 27.5.
The bottle is placed in a thermostat at 30 ° C and its contents are stirred for 1 hour. After removing the excess monomer, the polymer is dried under vacuum and weighed, resulting in 59.1 g of product, which is equivalent to a conversion degree of 63.5%. Output: 14540 g of polymer per g of Nd (residual amount of Nd 68 ppm).
According to the results of IR-spectroscopy, the following composition of the product of 1,4-cis-butadiene units 98.1% 1,4-trans-butadiene units, 1.2% units, 1,2-butadiene units 0.7% was established. The polymer has a Mooney viscosity (100 °, 1 + 4) 52 and so on. (December)
13
Example 2. In accordance with the method of example 1, 2.1 ml of a solution of trinaphenate Nd 0.028 mmol (23.97 mg) are placed in a bottle; Al (i-C4Hq) jH 14.4 mmol. (199.1 mg); Al () Cl7 0.021 mmol (2.67 mg) in hexane. The bottle is sealed and 93 g of butadiene containing 7.1 mg (0.39 mmol) dissolved is introduced into it. The molar ratio of components: Cl / Nd is 1.5; Al / Nd 50, OH / Nd 14. After the polymerization process, 33 g of dry polymer having a Mooney viscosity (1 + 4,
go m
about
oh
a:, 10
em H n e
3969592
), 21.5, mp, (dec) 4 e and the content of 1,4-cis (IR) is 98.5%.
EXAMPLE 3: A 2 liter autoclave equipped with a magnetic stirrer and a temperature regulator was evacuated and 33 ml of a suspension in hexane, obtained by reacting the following components in the specified sequence, was introduced into it: 0.1875 mmol (63 , 09 mg); He1 0.75 mmol (27.35 mg) 11.25 mmol (0.410 g); Al (), H 18.75 mmol (2.7 g);
15 3.8 mmol (68.46 mg). The molar ratios of the components are ei / Nd 2i Al / Nd 50, OH / Nd 40. After the introduction of 500 g of butadiene, the temperature in the autoclave is maintained at 50 e. The reaction mixture is stirred for 1 hour at 50 e. The product weighs 220 g after drying under vacuum discharged from the autoclave. It is a polybutadiene with a 1,4-cis25 content of 98% structure (IR spectral analysis) and Mooney viscosity (1 + 4, 100 ° e) 65.
EXAMPLE 4: The experience of Example 3 is repeated, but with the following changes:
30 3.75 mmol (0.28 g) instead of 11.25 mmol; He1 0.37 mmol (13.67 mg) instead of 0.75 mmol. Mole r- the ratio of the components: ei / Nd 0.8; Al / Nd 50, OH / Nd 20.
Under the conditions of Example 3, 189 g of polybutadiene having a Mooney viscosity of 41.5 (1 + 4, 100 ° e) and a 1,4-cis-unit content of 99.1% are obtained.
PRI me R 5. According to the procedure of Example 1, 2.9 ml of suspension and hexane are placed in a bottle: Nd-jOj 0.018 mmol (6.06 mg); He1 0.036 mmol (1.31 mg); naphthenic acids 0.36 mmol (87.66 mg) (acid value 230);
45 Al (,), iH 1.81 mmol (0.26 g); .ei / Nd 1, Al / Nd 50, OH / Nd 10.
Then 30 g of anhydrous butadiene are introduced through the plug. Reaction mass
35:
40
stirred at 30 e for 2 h, and then unloaded from the bottle and dried under vacuum. 10.1 g of a solid polymer are obtained, having the following characteristics: 98.5% 1,4-cis-butadiene of new units (IR analysis) ClJ; 3.6 dl / g (toluene, 30 °).
PRI me R 6. 2 ml of solution: Nd-iOj 0.022 mmol (7.40 mg); n-e4HjOH 1.35 mmol (0.1 g); Hel + H-jO (37% solution) 0.01 mmol (0.88 mg);
31396959
Al (iBu), H 2.20 mmol (0.32 g). Cl / Cl / Nd 1.5i Al / Nd 48, OH / Nd 25.3aKpbi / Nd 0, 2, Al / Nd 50, OH / Nd 32 in hexane are placed in a glass bottle (200 ml), designed as in Example 1 ,
Then 30 g of anhydrous butadiene is added. The contents of the bottle were stirred for 5 hours under thermostatic conditions in a water bath at.
The stopper bottle is placed in a water bath at 50 ° C and its contents are stirred for 1 hour. After mixing the reaction solution with 200 ml of ethanol and drying, 17 g of solid polymer are obtained.
Example 10. A reaction of 10 between the following constituents is carried out.
The mass of the polymer obtained after the reactor under the conditions of example 1:
drying 16.8 g. Contents of bottle- (a) Nd (OC4H9) 10.18 mg 0.026 mmol
ki is stirred for 5 hours in ulo- (c) Al (i C H,). 0.28 g 1.4 mIol
VIEH thermostatically on a water (c) 1.8 mg 1.0 (18 mg) bath at. The mass of the obtained-15 (o) 1 (C, H) C1 1.26 mg 0.01 mmol
Limer after drying 16.8 g. Co-iNd0.028 mmol
holding cis units 97.2% .Ul1,4 mmol
Example 7: The experiment on the polymerization of butadiene in the complete absence of a halogen-containing compound (component) was carried out in a glass bottle (200 ml), designed as in Example 1, the catalyst was prepared from trinaphthenate Nd 0.022 mmol (19.04 mg); Al (i Vi) s 1.125 mmol (0.22 g) N / gO (0.166 mmol (3-10 g). The molar ratio of the components: Cl / Nd Q, A1 /, OH / Nd 7.5.
The reaction proceeds in the presence of
OH1 mmol
C10.02 mmol
Ratio
Cl / Nd0.7
Al / Nd50
OH / Nd .35
93 g of butadiene containing 18 mg of 25 dissolved. After 120 min of reaction at 30 with stirring and subsequent drying, 54 g of 1,4-cis-polybutadiene are obtained (IR analysis:
98.9), corresponding to a yield of 1 ml of hexane as a diluent, 30 13400 g per g Nd.
30 g of PRIMER is added to this solution. 120 mg of hexane and butadiene, in which 100 parts are dissolved, 16 ml are loaded under the atmosphere per million. The bottle is closed and the nitrogen content in a glass bottle with a capacity of a press bottle is stirred for 200 hours in 200 ml. 3.1 ml of the solution were added under thermostatic conditions on water gg hexane obtained by the reaction group. After drying the Ravia,
(but)
polymer line under vacuum get 3.9 g of dry polymer having 4.J 3.8 (measured in toluene at 30) and the content of 1,4-cis-pen, tadiene units 98.1.
EXAMPLE 8 The experiment was repeated according to the procedure of Example 7 using the same reagents in the same quantities, but instead of butadiene containing 45,100 ppm, anhydrous butadiene was used. Under the reaction conditions of Example 7, even traces of the polymer were not obtained.
Example9. 130 ml of hexane containing gQ containing 18.5 g of dissolved butadiene and are loaded under a nitrogen atmosphere into a 200 ml glass bottle. Then 2.3 ml of a solution in hexane of the following substances are added: Nd (OC4H9) 3 0.032 mmol (11.63 g); AKi-C HpjH 1.55 mmol (0.22 g); A1 (C, H5) C1 0.024 mmol (3.05 mg); molar ratio of components:
(b) Al (i.Bu) H (c) Noo
40 (c) naphthenic acids
5.38 mg 0.016 mmol 0.23 g 1.6 mmol 19.81 mg Q, 9 (16 mg)
15.59 mg 0.064 mmol (d) A1 (CaH5) C1 4.06 mg 0.032 mmol Nd0.032 mmol
. A11.6 mmol
OH0,964 mmol
C10.064 mmol
Ratio
Cl / Nd2
Al / Nd50
OH / Nd30
At the end, 18.5 g of anhydrous butadiene is added.
After 2 hours of stirring at 50 ° C, the polymer solution is poured from the container into ethanol, resulting in 18.5 g of product after drying. IR analysis showed 1,4% cis units content of 94%. Viscosity i 1.4 dl / g (toluene,).
The stopper bottle is placed in a water bath at 50 ° C and its contents are stirred for 1 hour. After mixing the reaction solution with 200 ml of ethanol and drying, 17 g of solid polymer are obtained.
Example 10. A reaction between the following constituents is carried out.
OH1 mmol
C10.02 mmol
Ratio
Cl / Nd0.7
Al / Nd50
OH / Nd .35
93 g of butadiene containing 18 mg dissolved. After 120 min of reaction at 30 with stirring and subsequent drying, 54 g of 1,4-cis-polybutadiene are obtained (IR analysis:
(but)
five
Q
(b) Al (i.Bu) H (c) Noo
0 (c) naphthenic acids
5.38 mg 0.016 mmol 0.23 g 1.6 mmol 19.81 mg Q, 9 (16 mg)
15.59 mg 0.064 mmol (d) A1 (CaH5) C1 4.06 mg 0.032 mmol Nd0.032 mmol
. A11.6 mmol
OH0,964 mmol
C10.064 mmol
Ratio
Cl / Nd2
Al / Nd50
OH / Nd30
At the end, 18.5 g of anhydrous butadiene is added.
After 2 hours of stirring at 50 ° C, the polymer solution is poured from the container into ethanol, resulting in 18.5 g of product after drying. IR analysis showed 1,4% cis units content of 94%. Viscosity i 1.4 dl / g (toluene,).
Example 12 (comparative, known catalytic system). Neodymium versatate 0.028 mmol AKP-SFNe) 1.4 mmol
Albr
0.042 mmol
Neodymium versatate is an Nd salt of a mixture of saturated tert-monocarboxylic acids having 9, 10 and 11 carbon atoms.
17.4 g of polybutadiene were obtained with 1,4-cis-units, yield 96%, equivalent to 4350 g of polybutadiene per gram of Nd in the catalytic system.

权利要求:
Claims (2)
[1]
1. A catalytic system for the polymerization of butadiene to polybutadiene, including neodymium compounds and an organoaluminum compound, tri-isobutyl aluminum or diisobutyl hydride aluminum, wherein, in order to increase the activity of the catalytic system, it contains, as a neodymium compound, a compound selected from including neodymium oxide, neodymium trinaphthenate, tributoxyneodymium, and additionally contains a hydroxyl-containing compound selected from the group .. including water, butyl alcohol,. . naphthenic acids, with a molar ratio of organoaluminum, hydroxyl-containing compounds and neodymium compounds 48-51: 7.5-40.0: 1, respectively.
[2]
2. Pop-up system 1, characterized in that the system further comprises a chlorine-containing compound selected from the group including hydrogen chloride, ethyl aluminum chloride, with a molar ratio of chlorine-containing compound and neodymium compound of 0.2-3.0: 1, respectively.

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引用文献:

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

IT20746/82A|IT1151542B|1982-04-15|1982-04-15|PROCEDURE FOR THE POLYMERIZATION OF CONJUGATED DIOLEFINS AND MEDIA SUITABLE FOR THE PURPOSE|

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