DE2220442A1 - Cable sealing and packing compsn - of polyolefins having high drop-forming temp - Google Patents

Abstract

The compsn, having viscosity, 100-60000 cP/100 degrees C and a high drop-forming temp., contains 1-15% partly crystalline polybutene-1, having RSV value 0.5-6.0 dl/g and an ether-sol. fraction of =50%, and 5-50% of an amorphous polyolefin having RSV value 0.1-2.5 dl/g and an ether-sol. fraction >50%, and 90-40% of the polybutene oil, mol. wt. 400-1000, viscosity >150 cP320 degrees C. the compsns. have improved thermal stability.

Description

Cable potting - and sealing compound The invention is a Cable potting and sealing gauges made of polyolefins with a viscosity of 100 up to 6,000 cP / 1f) 00C and high dropping point.

As a cable potting and sealing compound you need materials that have a Have a viscosity of 100 to 6,000 cP / 1000C.

Thermally degraded largely amorphous polyol senses are suitable for this, in particular the degraded atactic polybutene-l. The breakdown of atactic polyolefins is necessary to obtain the required viscosity 1 m. Without dismantling lies the viscosity of the atactic polyolefins at 100,000 to 200,000 cP / 100 ° C, that these substances are practically impossible to process at temperatures of up to approx. 100 ° C. However, the thermally degraded polyolefins contain, depending on the process used more or less large proportions of cracked products. These degrade the electrical ones Property values and the color. In addition, this dismantling is very costly.

By adding mineral oils, which are largely atactic polyolefins dissolves well, although the viscosity of these atactic polyolefins is and sealing compounds required To lower height. The mineral oils However, they have the major disadvantage that they can easily be recovered from the atactic masses sweat out.

Such masses are therefore known as cable potting and sealing compounds not suitable. Vegetable oils that also have the worsen the electrical properties of the cable potting and sealing compounds.

The masses, therefore, represent an essential advance according to the German patent application P 19 31 421.7, which consists of 5 to 95 percent by weight of a Italian polyolefins or polyolefin mixtures with RSV values of 0.5 to 5, 0 and 95 to 5 percent by weight of an oily atactic polyolefin or polyolefin mixture with viscosities from 150 to 60,000 cP / 20 ° C.

Sometimes, however, it is desirable to process such masses, whose drop point is above 60 ° C, for example when the encapsulated cables should be exposed to higher temperatures.

According to the invention, this object is achieved by a content of the masses of 1 to 25% of a partially crystalline polybutene-1 with RSV values of 0.5 to 6.0 dl / g and ether-soluble proportions up to 50%, a content of 5 to 50% of a largely amorphous polyolefin with RSV values of 0.1 to 2.5 dl / g and ether-soluble components over 50% and a content of 30 to 40% of a Polybut @ nöles with a molecular weight from 400 to 1,000 and a viscosity over 150 cP / 20 ° C.

Those masses which contain 5 to 20% of a partially crystalline material are particularly advantageous Polybutene - l with RSV values from 0.5 to 6.0 dl / g, preferably from 1.0 to 3, 5 dl / g and ether-soluble proportions up to 50 41o, preferably from 10 to 40% and, as a largely amorphous polyolefin, a polybutene-1 with RSV values from 0.1 to 2.5, preferably 0.5 to 1.0 dl / g and ether-soluble proportions above 50%> in particular 60 to 90% and finally a polybutene oil with a viscosity from 300 to 20,000 cP / 200C, in particular from 1,000 to 10,000 cP / 20 ° C.

A useful, partially crystalline polybutene-1 is obtained, for example by polymerizing butene with contacts made of TiCl3 or

TiC13 n AlCl3 on the one hand and aluminum alkyl compounds on the other hand, preferably TiC13 n AlC13 and aluminum alkyl compounds, in particular TiCl3 # n # AlCl3 and mixtures of aluminum triethyl with diethyl aluminum monochloride at temperatures from 20 to 40 ° C.

Such a polybutene-1 has an RSV value of 0.5 to 6.0 dl / g when you regulate the molecular weights by adding hydrogen, in particular, when polymerizing at a partial pressure of 0.1 to 10 atmospheres of hydrogen; a It has an RSV value of 1.0 to 3.5 dl / g when at a hydrogen partial pressure worked from 0.5 to 5 at and preferably when the polymerization at temperatures from 20 to 40 ° C. The ether-soluble portion up to 50% means that up to 50% of the polymer is soluble in boiling diethyl ether. An ether soluble Proportion between 10 and 40% means that 10 to 40% of the polymer in boiling Diethyl ether are soluble.

Suitable partially crystalline polybutenes are also copolymers and terpolymers of butene-1 with ethene, propene and hexene-1 and their mixtures with ether-soluble Proportions up to 50%, preferably from 10 to 40%.

here, the proportion of the other olefins can be 0.1 to 30%, preferably 1 up to 20%. Can be used e.g. B. copolymers with 1 to 5% ethene, with 1 to 30% propene or 1 to 6% hexene-1 or terpolymers with 1 to 3% Athens and 1 to 10 so propene.

Suitable amorphous polyolefins are largely atactic polypropylene and polybutene-1, polyhexene-1, their copolymers and terpolymers with Athens, propene, 1-butene or 1-hexene and mixtures thereof, preferably 1-polybutene and Co- and Butene-l terpolymers. Such amorphous polyolefins are obtained by the Olefins with contacts made of TiC14, TiCl3 and TiC13 sl AlC13 on the one hand and organoaluminum Compounds on the other hand polymerized, preferably by allowing the polymerization carried out at temperatures of 50 to 100 ° C. In the copolymers, the others can Olefins are present in an amount of 0.1 to 30, in particular 1 to 20%. The RSV values reached by polymerizing at higher temperatures of 50 to 1000C, preferred by adding hydrogen in addition to regulating the molecular weight. The ether-soluble Proportion over 50%, preferably over 60 and up to 90% means that the corresponding proportion is soluble in boiling diethyl ether.

Suitable copolymers and terpolymers are, for. B. copolymers of butene with 1 to 10% ethene and 1 to 30% propene or with 1 to 10% hexene-1 or copolymers des propene with 1 to 30% butene-1 or with 1 to 20% hexene-1.

Polybutene oils of molecular weight 400 to 1,000 are obtained by 1-butene, 2-butene or isobutylene or mixtures thereof with Friedel-Crafts catalysts, preferably AlCl3, polymerized at temperatures from -200C to + 1000C. You get she prefers, by working according to the specifications of DT-OS 2 005 207.

After this process, higher viscosity oils are preferred Preserve viscosities.

These masses have a viscosity of 100 to 6,000 cP / 1000C and Drop points from around 700C to 983C. The masses with the higher viscosity settings have the higher dropping points. The dropping points are particularly due to the addition of the partially crystalline polybutenes increased. The viscosity is also due to the partially crystalline Polybutene-1-Ant-il increased more than by the proportion of amorphous polyolefins.

These masses meet all the requirements for cable potting and -sealing compounds are provided. They are also suitable as a filling compound for cable sleeves. At processing temperatures of around 100 ° C, they can be processed very easily. At room temperature they are solid to plastic. As a result of the higher dropping points the clay treated with these masses can also be used at higher temperatures avoid. Surprisingly, the addition of the partially crystalline polybutene 1 probably significantly improves the dropping points, the processability of these masses but is practically not versd .ecflert. The electrical property values of these masses are very good, they have an electrical dissipation factor tan 8 of 0.1 tis 3-10-3, a dielectric constant of 2, 1 to 2, 3 and a volume resistivity from 1017 to 1018 ## cm.

Example 1 10 parts by weight of a largely amorphous butene-l-propene-ethene terpolymer with about 5% propene and about 2% Athens with an RSV value of 0.6 dl / g (molecular weight 150,000) and an ether-soluble 84% share received through Polymerization of butene-1 with 5% propene and 2% Athens at 900C with one contact from TiC13-0.4 A1C13 and Al (iC4H9) 3 at an H2 partial pressure of 1.5 at at 120 ° C. with 5 parts by weight of a partially crystalline polybutene-1 with an RSV value of 2.4 dl / g (molecular weight 968,000) and an ether-soluble fraction of 12 % obtained by polymerizing butene-1 at 40 ° C with a contact made of TiC13- 0.3 AlCl3 and a mixture of 80% Al (C2H5) 2Cl and 20% Al (C2H5) 3 at a hydrogen partial pressure of 2 at, in 85 parts by weight of a polybutene oil with a viscosity of 216 cP / 20 ° C and a molecular weight of 500, which does not contain any low-boiling components, which boil below 1000C at 15 mm Hg, obtained by polymerizing a C4 cut from 52% butene-1, 24% trans-butene-2, 16% cis-butene-2 and 8% butane dissolved with 0.2% AlCl3 at 25 ° C. The mixture has a viscosity of 155 cP / 100 ° C, a dropping point of 75 ° C, an electrical dissipation factor tan # of 2 # 10-3 and a dielectric constant of 2.1. The mass is well suited as a cable potting and sealing compound and as a filling compound for cable sleeves.

The polybutene oil used does not sweat even after prolonged use the end. -Used instead of the partially crystalline polybutene- 1 with an ether-soluble one A polybutene-1 content of 12% with an ether-soluble content of 8% is obtained a mass with eil: Pr viscosity of 260 cP / 1000C and a dropping point of 830C.

Example 2 20 parts by weight of a largely amorphous polybutene-1 with an RSV value of 0.5 dl / g (molecular weight 132,000) and an ether-soluble proportion of of 68%, obtained by polymerizing butene-1 with a contact of T1C14 and A1 (C2H5) 3 at 900C and at a hydrogen partial pressure of 2 at, are with 10 parts by weight of a partially crystalline polybutene-1 with an RSV value of 3.2 dl / g (molecular weight 1,390,000) and an ether-soluble fraction of 23 go 150 ° C, obtained by polymerizing butene-1 with a contact of TiCl3 # 0.3 AlCl3 and a mixture of 70% Al (C2H5) 2Cl and 30% A1 (C2H5) 3 at 500C and at a hydrogen partial pressure Ton 2 at, in 70 parts by weight of a polybutene oil with a viscosity of 1,200 cP / 200C and a molecular weight of 540, which is none contains low-boiling components that boil below 150 ° C at 15 mm Hg by polymerizing a C4 cut from 52% butene-1, 40% butene-2, 8% butane in the presence of 1% butadiene-l, s with 0.2% AlC13 at 250C, dissolved. The mixture has a viscosity of 1,940 cP / 100 ° C and a dropping point of 98 ° C. she has a electrical dissipation factor tan # of 0.6 # 10-3, a dielectric constant of 2, 2 and a volume resistivity of 5 # 1017 ## cm. The mass is suitable very good as a cable potting and sealing compound. -Used instead of the largely amorphous polybutene-1 an amorphous polyhexene-1 with the same RSV value, so one gets a comparable mass.

Example 3 In 70 parts by weight of a polybutene oil with a viscosity of 4,200 cP / 20 ° C and a molecular weight of 729, which is no low-boiling Contains proportions that boil below 1500C at 15 mm Hg, obtained by 'polymerization of a C4 cut made of 43% isobutylene, 24 So butene-1, 24% butene-2 and 9 0g0 butane in the presence of 1% butadiene with 0, 2% AlCl3 at 300C 15 parts by weight of a largely amorphous butene-l-propene copolymer with approx % Propene, an RSV value of 0.7 dl / g (molecular weight 192,000) and an ether-soluble 81% share, obtained by polymerizing butene-1 with 10% propene at 80.degree with a contact of TiCl and Al (C2H5) 3 at a hydrogen partial pressure of 1 at, and 15 parts by weight of a partially crystalline polybutene-1 with an RSV value of 3.0 dl / g (molecular weight 1,280,000) and an ether-soluble fraction of 1 8% at 1400C, obtained by polymerizing butene-1 with a contact made of TiC13- 0.3 AlCl3 and Al (C2H5) 3 at 300C and a hydrogen partial pressure of 3 at. A mesh is obtained with a viscosity of 2200 cP / 1000C> one dropping point of 950C, an electrical dissipation factor tan # of 0.5 10, a dielectric constant of 2, 2 and a specific volume resistance of 7 # 1017 ## cm, which very suitable as a cable potting and sealing compound. The polybutene oil used does not sweat out even after prolonged use. -Will be used instead of the semi-crystalline Polybutene-1 with an ether-soluble content of 18% is a partially crystalline polybutene-1 used with an ether-soluble portion of 42%, one obtains a mass with a viscosity of 1,400 cP and a dropping point of 870C.

Claims (1)

Claim Cable potting and sealing compound with a viscosity of 100 to 6,000 cP / 100 ° C and a high dropping point i to 25% of a partially crystalline polybutene-1 with RSV values of 0.5 to 6, 0 dl / g and an ether-soluble proportion of up to 50% a content of 5 to 50% of a largely amorphous polyolefin with RSV values from 0.1 to 2.5 dl / g and ether-soluble components over 50% and a content of 90 to 40% of a polybutene oil with a molecular weight from 400 to 1,000 and a viscosity generator 150 cP / 200C.