DE1015512B - Microcrystalline petroleum wax impregnating agent for electrical cables - Google Patents

Description

GERMAN

The invention relates to insulated electrical cables with a dielectric made of impregnated fibrous insulating material, generally paper, and in particular to fully impregnated non-dripping cables and impregnating agents therefor which contain microcrystalline petroleum wax as the or a main component and hereinafter referred to as " microcrystalline petroleum wax impregnating agents * are designated.

A fully impregnated cable is understood to be one in which not only the fibrous insulating one Material is saturated with the cable mix, but also the spaces between the windings and any Spaces, which may exist between layers, are as full as practically possible with the mixture are. A non-dripping cable is understood to be one of which a vertical length of 10 m or more with open ends by dripping when at its highest working temperature during 7 days or heated longer, no greater volume of the mixture than

Petroleum wax impregnants

for electrical cables

Applicant:

British Insulated Callender's
Cables Limited, London

Representative: Dr.-Ing. A. van der Werth, patent attorney,
Hamburg-Harburg 1, Wilstorfer Str. 32

Claimed priority:
Great Britain 30 April 1953

Albert King, Bexley Heath, Kent (Great Britain),
has been named as the inventor

will lose, where d is the inner diameter of the cable jacket and I is the length of the cable.

A fully impregnated, non-dripping cable in which the impregnating agent is a normally plastic solid composition of microcrystalline petroleum wax with a melting point not below 80 ° C and of cable impregnation mineral oil or a plasticizer from the group of polyisobutylene with an average molecular weight of 20,000 to 100,000 or resin or a mixture of such oil with one or both of these plasticizers and in which the level of microcrystalline wax in the composition is not less than 55% by weight is known. An improved embodiment of such a cable is proposed. Here, in place of microcrystalline petroleum wax is a microcrystalline petroleum wax having a melting point of about 88 ⁰ C and with Nadeleindringungswerten of about 5 at 25 ⁰ C and about 35 at 7O ⁰ C or a mixture of such a wax with microcrystalline petroleum waxes with higher Eindringungswerten at higher temperatures and with a melting point of 85 to 90 ° C and between about 5 and 6 at 25 ° C and between 35 and 50 at 70 ⁰ C fluctuating needle penetration values are used. The proportion of microcrystalline wax in this composition is not less than about 48 percent by weight when using wax with a needle penetration value of 35 at 70 ^° C., and not less than about 50 percent by weight when the particular wax mixture is used.

The expression "microcrystalline petroleum wax" used in the foregoing and hereinafter is understood to mean a wax from the petrolatum group or Erdölkerising group of petroleum waxes, defined and classified in the "Journal of the Institute of Petroleum", Vol. 29, No. 240, 1943, p. 361 to 363, which have a relatively small crystal size compared to the waxes of the paraffin wax group. Such a wax is known as micro-crystalline or amorphous wax and has become a Erhärtungspunkt of generally 71 ⁰ C. The mentioned Nadeleindringungswerte as tested, designated "PenetrationofBitumen IP49 / 46", described pp 381-383 in "Standard Methods of Testing Petroleum and its Products ”, 12th Edition, 1952, published by the Institute of Petroleum, Manson House, 26 Portland Place, London W.I.

The term "cable impregnation mineral oils" used in the foregoing and hereinafter is understood to mean a mineral oil of the qualities which, since around 1950, were generally known among manufacturers of electrical cables as being suitable for dielectric impregnation of cables. For example, they are discussed in the compilation of papers on insulating oils in the Journal of the Institution of Electrical Engineers, Part II, pp. 3 to 64, Vol. 90, 1943. They vary in the viscosity of oils with a viscosity of about 1500 Engler degrees or higher at 0 ⁰ C up to the so-called hollow-core cable oils having a viscosity of about 18.2 degrees Engler at ⁰ C.

It has now been found that improved microcrystalline petroleum wax impregnants for non-drip Cable by incorporating up to 80 percent by weight of a synthetic hydrocarbon wax of low

709 696/237

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according to dielectric loss with a melting point mentioned in the "Super Hard Wax No. 105". »Alcowax« · Range from 85 to 120 ° C as a partial replacement of the microcrystalline is preferably only in connection with a larger one linen petroleum wax can be obtained. An-wax under a portion of the preferred synthetic wax A low dielectric loss is used, using the amount of "Alcowax" pre-wax understood, its power factor not greater than 5, preferably not 15 percent by weight of the agent liberal 0.005 at 100 ° C, measured at 50 periods per second, should step.

and at a load of 8 kV / cm. Depending on nature, especially on the

British Patent 562,646 discloses a tough viscosity-temperature curve of the oil and any impregnation mixture for paper tow, which may contain mineral oil, other ingredients used in the composition, or synthetic resin to reduce cold flow io the total wax content between 20 to 100 weight, which amorphous wax has a melting point vary percent of the whole composition, provided that has from 65 to 100 ⁰ C. It is also known from British when the total wax content at the lower end of the anPatentschrift 533 444 is known, synthetic coal given range, ie, 20 to 25, z ° / ₀ hydrogens. B. polyethylene, to an impregnation the oil used to add a viscosity of less than about medium in order to increase its viscosity; 15 possesses 20 Engler degrees. Preferably, however, this document only deals with increasing the total wax content between 25 and 60%, and the viscous viscosity of a liquid, while the invention's temperature-temperature curve of the oil used is not a liquid or even viscous one Impregnation such that the agent has such a sufficiently low shear mixture, but with mixtures which have plastic strength that a cable impregnated with it is at the operating temperature of the cable with solids, 20 low ambient temperatures without the risk of, and in particular with means for increasing it The melt-cracking of the fibrous dielectric can be routed points of the plastic solids. It has been found that the increase in the enamel

A preferred example of such a synthetic dots of the microcrystalline petroleum wax impregnation wax is available under the trade name " Super Hard Wax means, which is obtained by incorporating a synthetic No. 105". This wax has a melting point of low dielectric hydrocarbon wax of 108 to HO ⁰ C and is a product of the Fischer loss with a melting point of 85 to 120 ⁰ C Tropsch process. It has an average molecular weight obtained as a partial substitute for the microcrystalline wax of about 600. A second example is greater than in view of the extent of the synthetic substitute available under the name "Alcowax" and the higher melting point of the substitute. Wax. This is a polyethylene wax with a molecular weight of 30 should be assumed. The increase per unit weight of 2000 to 6000 and a melting point called replacement is most pronounced at the lower end of the range of 110 ° C, manufactured by Allied Chemical and Dye, and falls with the increase in the interest in Corporation of Buffalo, NY, USA. synthetic wax. This is evident from the curves

The incorporation of such a synthetic wax of the drawing. Curve A shows how the melting point leads to an agent which has an unexpectedly higher melting point of a microcrystalline petroleum wax agent of microGrade than that of an agent of crystalline petroleum wax with a melting point of the same composition, at which all 80 ⁰ C and a synthetic hydrocarbon wax Wax is a microcrystalline petroleum wax of the same low dielectric loss grade and having one. As a result, by incorporating a melting point of 108 ° C (Super Hard Wax No. 105) with the synthetic wax, microcrystalline petroleum wax-40, the proportion of such synthetic wax changes, medium, which is suitable for use in the manufacture, for comparison purposes, the curve shows B, how the melting point of a microcrystalline petroleum wax agent with bar and therefore a stronger and more profitable load of a microcrystalline petroleum wax with melting point tolerant cables are suitable at higher working temperatures, with desired 80 ⁰ C and a microcrystalline petroleum wax with if microcrystalline wax is used , which completely 45 melting point 90.5 ⁰ C with the proportion of the latter or partially a melting point of less than 80 ° C changes. From curve B it can be seen that has an agent. Instead, the synthetic wax can also be used with a content of equal proportions of microcrystalline petroleum wax with a melting point of 80 ° C and such crystalline waxes microcrystalline wax impregnation with a melting point of 90.5 ° C to obtain a melting point of medium which is about the same melt 50 86.7 ° C, where the points have such as those in which the ingredients of Wachsge- 85 ⁰ C is close to the average melting point. From Kurvet is dependent entirely of microcrystalline wax having a melting contrast can be seen that a means is composed with a Gepunkt of 8O ⁰ C or higher. The halt by Verwen- of equal proportions of microcrystalline petroleum Dung such synthetic wax advantages obtained wax with melting point 8O ⁰ C and a synthetic surpass the disadvantage of the additional costs 55 hydrocarbon wax of low dielectric synthetic wax compared to the of loss and melting at 108 ° C has a melting point of microcrystalline petroleum wax. of 106 ° C, which compared to the average

The preferred amount of synthetic hydrocarbons loan melting point of the components of 94 ° C a substance wax with a low dielectric loss, which means difference of 12 ⁰ C. It should be noted that, in the improved microcrystalline petroleum wax, if the synthetic wax level may be about 20% impregnant, it is about 1 to about enough, the curves A and B are parallel to each other. Percentage by weight of the whole composition. The proportion depends on curve C, which is obtained by plotting the ratio of the proportion and melting point of the microcrystalline between the increase in the melting points on the petroleum wax, on the type of curve and B versus the percentage of cable impregnation mineral oil and, of course, on the synthetic wax or refractory micro-shape and the working conditions of the cable in which crystalline petroleum wax was obtained can be seen as to which it is to be used. In general, the proportion that the unexpected effectiveness of the synthetic on the synthetic wax is the greater, the higher the melting point of the wax, the most notably lower the melting point of the microcrystalline wax when its proportion is a few percent, and that it is. The preferred synthetic wax is, as already 70 effect per unit proportion of added synthetic

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The agent has a melting point of 85 ° C and is

Wax reaches about 20 percent by weight, which is suitable for cables with operating temperatures up to 70 ° C,

Point the curve flattens out. Therefore, if the attainment is provided that the cable is protected from excessive bending

an increase in the melting temperature with low warms. The increase in the melting point due to the

Cost is an essential consideration, so the amount should be 5% presence of 1% of the synthetic wax

of synthetic hydrocarbon wax present, about 6.25%.

of low dielectric loss preferably 20. Example 2
Do not exceed the weight percent of the impregnating agent.

In addition to its essential ingredients, microcrystalline petroleum wax

microcrystalline petroleum wax, the synthetic wax io (melting point 88 ° C and needle penetration

and the cable impregnation mineral oil, the yield values of 5 at 25 ° C and 35 at

improved impregnating agent even a smaller proportion 70 ° C) 45 parts by weight

on one or more plasticizers, e.g. B. Polyiso Super Hard Wax No. 105 5 ,,

butylene, resin, polyethylene and butyl rubber, ent cable oil (viscosity 18.2 degrees of Engler

keep. The amount of plasticizers that can be used depends on 15 at 0 ° C and 1.59 degrees of Engler at 60 ° C) 50 "
of the required properties of the impregnating agent

and the or the particular plasticisers used, this agent has a melting point of 89 ⁰ C and is available and will give correct by experiment according to the requirements for cables operating at temperatures up to about 75 ° C. For example, it should be mentioned that one is suitable. Here the increase in melting point is such as can be used up to about 1 percent by weight of the weight of composition 20 by replacing a portion of the microcrystalline petroleum of polyisobutylene having a molecular weight of about wax with the synthetic wax in the stated 80,000 to increase the viscosity of the liquid level is obtained, 9 ° C. A mean of 50 weight phase to increase the means. However, it is also possible to divide the said petroleum wax and 50 parts by weight to 5 percent by weight of polyethylene with a molecular of said oil has a melting point of 80 ° C. weight of from about 3000, or up to 5 percent by weight 25 through incorporation of 5 ° / ₀ of the Use synthetic wax butyl rubber. When using resin as the melting point is increased by 11 °.
Plasticizers can be added up to 30 percent by weight. .
Apply weight of remedy. If two or more example
Plasticizers are used together, depending on the microcrystalline petroleum wax

applied amount of one of the applied amount 30 Example 2 40 parts by weight

of the other. Super Hard Wax No. 105 15 "

Small proportions, namely 0.01 to 1.0%, of other additive cable oil according to Example 2 45

Sentences, e.g. B. Antioxidants and metal sequestrants

gates (deactivators) can pull if necessary. This agent has a melting point of 96 ° C and

will give. An example of the former is Phenyl- 35 is used for cables with operating temperatures up to 85 ° C.

ß-naphthylamine, which is suitable in amounts up to 0.2% of the GE. An average of 55 parts by weight of the aforesaid

weight of the agent, and an example of the latter is petroleum wax and 45 parts by weight of said oil

N, N'-disalicylidenethylenediamine, which in amounts up to has a melting point of 81 ° C, so that the through

incorporated at 0.02% of the weight of the agent, 15% by weight of the synthetic

can. 40 wax obtained increase in melting point 15 ° C or

The improved funds can be achieved by simply adding 18.5%,
Warming up the required quantities of the micro-Beismel 4
crystalline petroleum wax and the low dielectric loss synthetic hydrocarbon wax according to microcrystalline petroleum wax

and of the 45 example 1 usually present in such compositions, 30 parts by weight.

Cable impregnation mineral oil to a temperature of Super Hard Wax No. 105 30 "

120 to 130 ° C for 2 to 3 hours while stirring cable oil according to Example 2 40

be asked. The mixing can take place in an inert

Atmosphere, e.g. B. nitrogen, but this agent has a melting point of 98 ° C and this is not essential as the components are resistant to Oxy-50 is for cables with operating temperatures up to 87 ° C. Polyethylene and / or resin can be suitable. An agent of 60 parts by weight of the above can be added without difficulty if necessary. Petroleum wax and 40 parts by weight of the above If the addition of polyisobutylene high mole cable oil has a melting point of 75 ° C, so that the kulargewichts and / or butyl rubber is desired, replace half of the petroleum wax with then these should be in the form a premix of 55 the synthetic wax yielding increase in melt or both in microcrystalline petroleum wax or point 23 ° C or 31%.
another suitable wax can be added. . ,
Microcrystalline wax with a content of polyiso Example 5
butylene is sold under the name »Mycroply 30«. Microcrystalline petroleum wax according to

The following examples relate to microcrystalline soil 60 Example 1 23 parts by weight

oil wax impregnation agent, which is used for the production of Super Hard Wax No. 105 23 "

non-drip, impregnated, paper-insulated Alcowax (molecular weight 2000) ... 14

Cables are suitable. Cable oil according to example 2 40 "

Example 1 6 _{5 This M} j _{ttel has a} melting point of 98 ° C and

Microcrystalline petroleum wax is suitable for cables with operating temperatures up to 87 ° C.

(Melting point 8O ⁰ C and Nadeleindrin- is suitable. It is therefore far superior to an agent which

supply values of 17 at 25 ° C and greater than 60 parts by weight of the petroleum wax of Example 1 and

than 200 at 60 ° C) contains 99 parts by weight 40 parts by weight of said cable oil and

Super Hard Wax No. 105 1 part by weight 7 ° has a melting point of 73 ° C.

Claims (1)

7 8 Example 6 it contains 1 to 20% by weight by weight of the agent microcrystalline petroleum wax in the synthetic hydrocarbon wax of (melting point 75 ° C) 80 parts by weight of low dielectric loss. Super Hard Wax No. 105 20 "4. Microcrystalline petroleum wax impregnation agent 5 according to the preceding claims, characterized in that the total wax content has a melting point of 93 ° C, indicating that the total wax content is 20 to probably the melting point of the microcrystalline petroleum - 100% of the Means is. wax is only 75 ° C. It is suitable for cables with operating 5. Microcrystalline petroleum wax impregnation agent temperatures of up to 80 ° C. according to the preceding claims, thereby. ίο indicates that the main component is cable example 7 impregnation mineral oil and 25 to 60 percent by weight of microcrystalline petroleum wax based on the weight of the agent in a mixture of micro (melting point 75 ° C) 65 parts by weight of crystalline petroleum wax and the synthetic Super Hard Wax No. 105 5 " Hydrocarbon wax from the low dielectric cable oil according to Example 2 contains 30-15 loss. 6. Microcrystalline petroleum wax impregnation agent This agent has a melting point of 76 ° C and according to claim 5, characterized in that it is microcrystalline petroleum wax with no more than suitable for cables with operating temperatures up to 65 ° C. It is equivalent to an agent composed of its own weight in the synthetic carbon parts by weight of the oil and 70 parts by weight of the hydrogen wax of low dielectric microcrystalline petroleum wax of Example 1, i.e. H. a pleasure is mixed. Wax with a melting point of 80 ° C. 7. Microcrystalline petroleum wax impregnation agent according to the preceding claims, characterized in that the synthetic hydrocarbon. 1. Microcrystalline petroleum wax impregnant Tropsch process with a melting point of for use in the production of fully impregnated 108 to 110 ° C and an average temperature non-dripping electrical cables, ta- kular weight of about 600. characterized in that it is a partial replacement of the micro-8. Microcrystalline petroleum wax impregnation agent crystalline petroleum wax up to 80% of a synthetic 30 according to claims 1 to 6, characterized in that table hydrocarbon wax of low di- that the synthetic hydrocarbon wax one electrical loss with a melting point within the mixture of a wax according to the fishery within the range of 85 to 120 ° C. Tropsch process with a melting point of about 2. Microcrystalline petroleum wax impregnation agent 108 to 110 ° C and an average mole according to claim 1, characterized in that it is 35 kulargewicht of about 600 and a polyethylene-1 to 40 percent by weight of the weight of the agent on wax with a melting point of about 110 ° C and the synthetic hydrocarbon wax of low molecular weight of 2000 to 6000 is.
contains some dielectric loss. 3. Microcrystalline petroleum wax impregnant. Documents considered:
according to claims 1 and 2, characterized in that 40 British Patents Nos. 533,444,562,646. 1 sheet of drawings 1 709 696/237 9. 57