DE2220442C3 - - Google Patents

Description

ao 20 ⁰ C included.

A useful, partially crystalline poly is obtained. The object of the invention is a Kabelverguß- butene-1, for example by polymerizing and sealing compound made of polyolefins with a butene with contacts made of TiCl ₃ or TiCl ₃ · η ■ AlCl ₃ viscosity of 100 to 6000cP / 100 ° C and high dropping point on the one hand and aluminum alkyl compounds on the other. as hand, preferably TiCl ₃ · η AICI ₃ and Aluminiurralkyl-

AIs Kabelverguß- and connections sealing compounds needed, particularly TiCl ₃ · η · AlCl ₃ and Mimac substances having a viscosity from 100 to 6000 cP / mixtures of triethylaluminum with Diäthylalu-100 have ^0C. minium monochloride at temperatures from 20 to

For this purpose, thermally degraded far- 40 ^c C. A largely amorphous polyolefin has an RSV value of 0.5 to 6.0dI / g, in particular the degraded polybutene-1 if one adds atactic polybutene- 1. The decomposition, which regulates the molecular weights of hydrogen, in tactical polyolefins, is necessary in order to obtain the viscosity required, especially if the partial pressure is 0.1. Without degradation, the up to 10 atm of hydrogen is polymerized; The RSV value of atactic polyolefins has a viscosity of 100,000 to from 1.0 to 3.5 dl / g when at 200,000 cP / 100 ° C, so that these substances at a temperature of 0.5 to 5 at worked temperatures up to about 100 ° C practically impossible to process and preferably when the polymerization is at. Is The thermally degraded polyolefins include temperatures of 20 to 4O ⁰ C performed, but depending on the method used more or the ether-soluble fraction to 50% implies that 50% less large amounts of cracking products. These ver the polymers are soluble in boiling diethyl ether, have poor electrical properties and 40 An ether-soluble proportion between 10 and 40% causes the color. In addition, this dismantling is very complex. indicates that 10 to 40% of the polymer in boiling By adding mineral oils, which are largely soluble in diethyl ether.

«Tactical polyolefins dissolve well, although the viscosity is suitable. Partly crystalline polybutenes are also co-

lower these atactic polyolefins to the level required for cables and terpolymers of butene-1 with Athens, propene and potting and sealing compounds 45 hexene-1 and their mixtures with ether-soluble An-CU. However, the mineral oils have parts up to 50%, preferably from 10 to 40%. The major disadvantage here is that the proportion of other olefins 0.1 to 30% of the atactic masses can sweat out again if exposed to light. Such masses are preferably 1 to 20%. Can be used e.g. B. therefore as cable potting and sealing compounds un- copolymers with 1 to 5% Athens, with 1 to 30% pro • suitable. Plant pens or 1 to 6% hexene-1 or terpolymers with © Ic, which also have the electrical properties of 1 to 3% Athens and 1 to 10% propene, have the same disadvantage.
Values of the cable potting and sealing compounds. These are largely suitable amorphous polyolefins

Bad. atactic polypropylene and polybutene-1, das_ poly-

The hexene-1, their copolymers and terpolymers with Athens, compositions according to DT-OS 19 31 421, which consist of 555 propene, butene-1 or hexene-i and their mixtures, up to 95 percent by weight of one, therefore represent a significant advance atactic polyolefins, preferably polybutene-1 and copolymers and terpolymers • of the polyolefin mixture with a reduced specificity of butene-1. This gives such an amorphous PoIytifischen viscosity of 0.05 to 5.0 and 95 to 5 overall olefins by the olefins with contacts of wight percent of an oily atactic polyolefin TiCl _4, TiCl ₃ and TiCl ₃ · η · AlCl ₃ on the one hand and one alulider Polyolefin mixtures with viscosities from 150 to 60 mineral organic compounds, on the other hand, consist of polyps 60,000 cP / 20 ° C, merized, preferably by polymerizing, but sometimes it is desirable to carry out such compositions at temperatures of 50 to 100 ° C. In process whose dropping point is above 6O ⁰ C, examples of the copolymers, the other olefins to 0.1 game as if the molded cable higher to 30, especially 1 to 20%, are present. The RSV should be exposed to temperatures. 65 values are achieved by polymerizing at higher temperatures at temperatures of 50 to 100 ° C., preferably a content of 1 to 25% in the masses of a partially by adding crystalline polybutene-1 in addition to regulating the molecular weight a reduced spe- hydrogen is added. The ether-soluble portion over

50%, preferably over 60 and up to 90%, means that the AICl ₃ be; Dissolved 25 ° C The mixture has a proportion in boiling diethyl ether solution of 155 cP / 100 ° C, a dropping point of! '<* ^Is - 75 ° C, an electrical dissipation factor tan δ of 2 · 10 "»

Suitable copolymers and terpolymers are, for. B. Co and a dielectric constant of 2.1. The crowd

polymer of butene with 1 to 10% Athens and 1 to 5 works well as a cable potting and sealing compound

30% propene or with 1 to 10% hexene-1 or Co- and as a filling compound for cable sleeves. The used

Polymers of propene with 1 to 30% butene-1 or with polybutene oil do not sweat even after prolonged use

1 to 20% hexene-1. _off .

Polybutene oils with a molecular weight of 400 to 1000 are used instead of the partially crystalline poly-

is obtained by adding butene-1, butene-2 or iso-io-butene-1 with an ether-soluble fraction of 12%

Butylene or their mixtures with Friedel-Crafts-Ka- Polybutene-1 with an ether-soluble content of 12%

catalysts, preferably AlCl ₃ , at temperatures a polybutene-1 with an ether-soluble fraction of

from -20 to +100 ⁰ C polymerized to give 8%, we obtain a composition having a viscosity of

preferably by following the specifications of the DT-OS 260 cP / 100 ° C and a dropping point of 83 ° C.

20 05 207 works According to this procedure, 15

higher viscosity oils with the preferred viscosities Example 2

receive. 20 parts by weight of a largely amorphous poly

These masses have a viscosity of 100 to butene-1 with an RSV value of 0.5 dl / g (molecular

6C00cP / 100 ° C and dropping points from about 70 to weight 132,000) and an ether-soluble portion of

98 ° C. The masses with the higher viscosity - ao 68%, obtained by polymerizing butene-1 with

settings have the higher dropping points. The one contact made of TiCl ₄ and Al (C ₂ Hj) ₃ at 90 ⁰ C and

Drop points will be especially due to the addition at a hydrogen partial pressure of 2 at

of the partially crystalline polybutenes increased. Also the Vis with 10 parts by weight of a partially crystalline polybutene-1

The viscosity is determined by the semi-crystalline polybutene-1-An with an RSV value of 3.2 dl / g (molecular weight

partly higher than the proportion of amorphous 15 1 390 000) and an ether-soluble proportion of 23%

Polyolefins. at 150 ⁰ C, obtained by polymerizing Bu-

These compounds meet all the requirements for ten-1 with a contact made from TiCl ₃ · 0.3 AlCl ₃ and cable potting and sealing compound !! be asked. a mixture of 70% of Al (C ₂ Hs) ₂ Cl and 30% Also, as a filler for cable joints it sird overall A1 (C ₂ H _{5) 3} at 5O ⁰ C and at a hydrogen Suitable. At processing temperatures of about 3 "partial pressure of from 2 in 70 parts by weight of a poly-100 ⁰ C they can be processed very easily. In the case of room butene oils with a viscosity of 1200 cP / 20 ° C and temperature, they are solid to plastic. As a result of the points a molecular weight of 540, the no slightly higher drip can contains the boiling masses with these components, the boiling below 150 ⁰ C in treated cable mm Hg at higher temperatures 15 obtained by polymerization used. Surprisingly, the addition of the semicrystalline polybutene-1, the 8% butane in the presence of 1% 1,3-butadiene with dropping points is considerably improved by a C _{4 cut from 52% 1-butene, 40% 2-butene} Processable 0.2% AlCl ₃ at 25 ° C, dissolved. The mixture has a speed of this mass but is practically not viscous. Viscosity of 1940 cP / 100 ° C and a dropping point is poor. The electrical property values of these of 98 ⁰ C. It has an electrical loss factor tan Λ masses are very good, they have an electrical 40 of 0.6 · ΙΟ " ³ , a dielectric constant of 2.2 loss factor tan δ 0.1 to 3 -10- *, a Di- and a specific volume resistance of electricity constant of 2.1 to 2.3 and a spe- 5-10 ¹⁷ Ω-cm. The mass is very well suited as a specific volume resistance of 10 "to 10 ^1β Ω Cable potting and sealing compound,
cm. If one uses an amorphous Polyhexcn-1 with the same instead of the largely amorphous B ice ρ ie 1 1 ^{45 P ° tybutene-1}

RSV value, one obtains a comparable mass.

10 parts by weight of a largely amorphous Bu-

ten-1-propene-ethene-Jerpolymeren with about 5% Pro- Example 3
pen and about 2% Athens with an RSV of

0.6 dl / g (molecular weight 150,000) and an ethereal 50 in 70 parts by weight of a polybutene oil with a soluble portion of 84%, obtained by polymer viscosity of 4200cP / 20 ° C and a molecular ion of butene-1 with 5% Propene and 2% Athens at a weight of 720, which does not contain any low-boiling components 90 ⁰ C with a contact of TiCl ₃ · 0.4 AlCl ₃ and which ^{boil below 150 0} C at 15 mm Hg, Al (iC ₄ H,) ₃ at for a Hj partial pressure of 1.5, obtained by polymerization of a C ₄ cut from be at 12O ⁰ C with 5 parts by weight of a partially 55 43% iso-butylene, 24% butene-1, 24% butene-2 and crystalline polybutene-1 having a RSV value of 9% butane in the presence of 1% of butadiene with 0.2% of 2,4 dl / g (molecular weight 968,000) and an ether AlCl ₃ at 30 ⁰ C, 15 parts by weight a far-soluble fraction of 12% obtained by polymerisation continuous amorphous butene-1 -propen copolymers sation of butene-1 at 40 ⁰ C with a contact of about 10% propene, a RSV value of 0.7 dl / g TiCl ₃ · 0.3 AlCl ₃ and a mixture of 80% 60 (molecular weight _{192,000) and an ether-soluble A1 (C 2} H ₆ ) _S C1 and 20% Al (QH ₅ )., at a water content of 81%, obtained by polymerizing material partial pressure of 2 at, in 85 parts by weight of a butene-1 with 10% propene at 80 ⁰ C with a contact polybutene oil with a viscosity of 216 cP / 20 ° C from TiCl ₃ and A1 (C ₂ H ₅ ) ₃ with a hydrogen and a molecular weight of 500, which does not contain a light partial pressure of 1 at, and 15 parts by weight of a part-boiling portion, which below 100 ° C contains 65 crystalline polybutene-1 with an RSV- Value of boiling at 15 mm Hg, obtained by polymerization 3.0 dl / g (molecular weight 1,280,000) and a C _{4 cut} from 52% butene-1, 24% trans-butene-soluble content of 18% at 140 ⁰ C, obtained ten-2, 16% cis-butene-2 and 8% butane with 0.2% by polymerization of butene-1 with one contact

from TiO ₃ -0.3 AlCl, and Al (C ₁ Hs), at 30 ⁰ C and a hydrogen partial pressure of 3 at, dissolved. A composition is obtained with a viscosity of 2200 cP / 100 ° C., a dropping point of 95 ° C., an electrical loss factor tan δ of 0.5 · 10- * “, a dielectric constant of 2.2 and a volume resistivity of 7 · 10 -4 "Ω - an, which is very well suited as a cable sealing and sealing sealant - the polybutene oil used does not exude even with prolonged use.

Used in place of the partially crystalline polybutene-1 with an ether-soluble portion of 18% a partially crystalline S lines Polybutene-1 with an ether-soluble portion of 42% used, a mass with a viscosity of 140OcP and a dropping point of 87 ° C.

Claims (1)

specific viscosity of 0.5 to 6.0 dl / g and ätbsr- Claim: soluble parts up to 50%, a content au 5 to 50% of a largely amorphous polyolefin with one Cable potting and sealing compound with a Vis-reduced sperfischen viscosity of 0.1 to 2.5 dl / g from 100 to 6000cp / 100 ° C and high 5 and ether-soluble proportions over 50 ^ and a Ge dropping point, characterized by stop 90 to 40% of a polybutenoies with a content of 1 hs 25% of a partially crystalline poly- molecular weight of _Q 400 to 1000 and a Visbutene-1 nrite with a reduced specific viscosity above 150 cP / 20 ° C. viscosity from 0.5 to 6.0 dl / g and ether-soluble. Particularly advantageous are those masses that are 5 to Proportions up to 50% a content of 5 to 50% of an io 20% of a partially crystalline Polybuien-1 with a reduction largely amorphous polyolefin with a reduced specific viscosity (RSV) of 0.5 to adorned specific viscosity from 0.1 to 2.5 dl / g 6.0 dl / g, preferably from 1.0 to 3.5 dl / g and ethereal and ether-soluble parts over 50% and a soluble part up to 50%, preferably from 10 to Content of 90 to 40% of a polybutenoies with 40%, as well as a largely amorphous olefin a molecular weight of 400 to 1000 and 15 polybutene-1 with RSV values of 0.1 to 2.5 Viscosity over 150cP / 20 ° C. preferably 0.5 to 1.0 dl / g and ether-soluble proportions over 50%, in particular 60 to 90% and finally a polybutene oil with a viscosity of 300 to 20,000 cP / 20 ° C, especially from 1,000 to 10,000 cP /