Electricity: conductors and insulators – Insulators
Reexamination Certificate
2000-05-30
2003-02-04
Reichard, Dean A. (Department: 2831)
Electricity: conductors and insulators
Insulators
C174S13800J, C174S196000
Reexamination Certificate
active
06515231
ABSTRACT:
This application is a 371 of PCT/DK98/00382, filed Sep. 9, 1998.
An electrically insulating material, method for the preparation thereof, and insulated objects comprising said material.
The present invention relates to an electrically insulating material comprising a thermoplastic polymer and a dielectric.
It is known to insulate high-voltage DC cables with paper impregnated with dielectric oil. The preparation of such insulated cables is cumbersome and time-consuming, as it comprises a number of steps, such as wrapping the paper round the electrical conductor, drying, impregnating the paper under heating, and cooling the insulation to ambient temperature. Such cables can also be used for alternating current.
By using the known insulations, local charge effects which may cause breakdown can be avoided, but the resulting cables are sensitive to quenching, and the operating temperatures should not exceed about 80° C.
GB patent No. 1.371.991 discloses an insulation material, which is prepared by impregnating a porous, electrically insulating polymeric film with a dielectric fluid, followed by a heat-shrinkage of the polymeric film in view of encapsulating the dielectric fluid. The use of the known insulation material for insulating e.g. high-voltage cables is slow as, like the first-mentioned insulating method, it presupposes that the impregnated polymeric film is wound round the electrical conductor.
It is also known to insulate high-voltage AC cables with an insulating insulation layer prepared by extrusion of a polymer, such as polyethylene or cross-linked polyethylene.
It has not been possible to use such insulation layers of a polymer for insulating high-voltage DC cables, i.a. because during cooling to ambient temperature at operating conditions, local charge effects are accumulated, thus entailing risk of breakdown.
Also, it is known to use various types of gels for insulation and/or field equalization.
U.S. Pat. No. 4,943,685 discloses the use of a gel formed from a lightly cross-linked polymer and insulating fluid, such as a mineral oil, for injecting into e.g. cable splices or cable shoes, so that the gel fills out the void around the conductor and acts as insulation.
U.S. Pat. No. 5,218,011 discloses the use of a gel composition comprising a fluid, a thickener, and a water absorbent polymer for incorporation as filler in cavities and in electrical cables. The main purpose of the presence of such a gel is to prevent entry of water, which i.a. is achieved in that the gel itself forms a barrier. If water does enter past this barrier, the water absorbent polymer is activated, and the water is absorbed. This type of gel is mainly used in connection with low direct voltages.
WO 86/01634 discloses use of a gelloid composition comprising a polymer, in which a fluid is dispersed, and and optionally a filler, for field equalization in connection with electrical devices. The composition is especially well-suited for use at high voltages.
It is a common feature of these types of gels that they have no mechanical strength, for which reason they are most unfit for formation of a dimensionally stable insulation layer. Typically, it is the purpose of the gel to act as a mass which displaces air, as air is poorly insulating. As regards the gels mentioned in U.S. Pat. No. 5,218,011 and WO 86/01634 there is the additional disadvantage that the particular gel in itself has no particular insulating effect, for which reason an additional insulation layer must typically be used.
JP 8302113A discloses the use of an ethylene-propylene rubber compounded with at least one compound selected from polybutene, polybutadiene, polysioprene, and butyl rubber, inorganic fillers, and organic peroxides for the preparation of an insulation material without use of added oil.
Finally, WO 96/27885 discloses use of a composition comprising a polypropylene polymer or copolymer, polyethylene wax, and coated magnesium hydroxide as insulation or outer sheath for wires and cables. Such a composition is easily extrudable, and the wax content ensures a smooth and wear-resistant surface.
Use of the above composition for high-voltage is, however, inexpedient because of the high content of magnesium hydroxide added in view of the fire retarding effect of the substance.
It is the object of the present invention to provide a material which possesses sufficient insulating capacity for it to be used for both DC and AC insulation in connection with high-voltage, and which is easily converted so as to form a desired insulation layer.
This object and other objects, which will be described in the following, are obtained with the insulation material according to the invention, which is characterized in that the thermoplastic polymer forms a continuous phase incorporating an additional phase of a liquid or easily meltable dielectric in the form of a wholly or partly interpenetrating network, and that the weight ratio of polymer to dielectric is between 95:5 and 25:75.
When using an electrically insulating material for e.g. high-voltage insulation, a temperature increase normally occurs, whereby the dielectric, if not already liquid, melts. Hereby a structure emerges comprising a solid network of polymer filled with liquid dielectric, which thereby gets to act as a mobile phase in the solid polymer network.
The presence of this mobile phase seems to prevent local charge effects, which in the known materials may cause breakdown, from arising, and without this phase inexpediently influencing the main structure and consequently the strength of the insulation material.
Examples of useful thermoplastic polymers include polyolefines, acetate polymers, cellulose polymers, polyesters, polyketones, polyacrylates, polyamides, and polyamines. The polymers may be homo-, co- or ter-polymers. As co-monomers use can be made of various compounds with functional groups, such as epoxides, vinyls, amines, anhydrides, isocyanates, and nitriles. Mixtures of two or more polymers can also be used.
To avoid exudation of dielectric after the preparation of the insulation material, it is preferred to use low-crystalline polymers.
The liquid dielectric is preferably a mineral or synthetic oil, or a mixture of both. Low-viscosity as well as high-viscosity oils may be used.
Examples of use as dielectric oils include polyisobutylene, naphthenic, polyaromatic, and alpha-olefine containing oils, as well as silicone oils.
Examples of easily meltable dielectrics are wax and low molecular polymers.
In this context, the expression “easily meltable” should be taken to mean that the dielectric melts/softens at a lower temperature than the melting/softening temperature for the thermoplastic polymer.
The invention also relates to a method for the preparation of the electrically insulating material described above. This method is characterized in that the thermoplastic polymer and a liquid or easily meltable dielectric in a weight ratio from 95:5 to 25:75 of polymer to dielectric are mixed under heating to a sufficiently high temperature for melting both polymer and dielectric, that the mixture is optionally formed to a shape, and that it is cooled to ambient temperature. Hereby an insulation material is obtained which is dimensionally stable at temperatures of use, and consequently can be used without cross-linking as insulation material on e.g. high-voltage cables.
During the mixing and the heating of the thermoplastic polymer and the liquid or meltable dielectric, a liquid-in-liquid suspension is obtained, where the polymer as a result of its comparatively high viscosity predominantly forms a continuous phase, in which the liquid dielectric forms a similarly continuous, interpenetrating phase. It is presumed that a corresponding backbone structure is obtained after cooling the mixture to ambient temperature, however, with the difference that the polymer after having again assumed solid state forms a network containing a wholly or partly interpenetrating network of liquid of solidified dielectric.
It is understood that the said interpenetrating network is formed at mi
Glejbøl Kristian
Strøbech Esben Rune
Winther-Jensen Bjørn
Nkt Research Center A/S
Walkenhorst W. David
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