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US2501868A - Dielectric material - Google Patents

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US2501868A
US2501868A US75723A US7572349A US2501868A US 2501868 A US2501868 A US 2501868A US 75723 A US75723 A US 75723A US 7572349 A US7572349 A US 7572349A US 2501868 A US2501868 A US 2501868A
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polystyrene
film
dielectric material
dielectric
liquid
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US75723A
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Frank B Hodgdon
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AT&T Corp
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Western Electric Co Inc
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B3/00Insulators or insulating bodies characterised by the insulating materials; Selection of materials for their insulating or dielectric properties
    • H01B3/18Insulators or insulating bodies characterised by the insulating materials; Selection of materials for their insulating or dielectric properties mainly consisting of organic substances
    • H01B3/30Insulators or insulating bodies characterised by the insulating materials; Selection of materials for their insulating or dielectric properties mainly consisting of organic substances plastics; resins; waxes
    • H01B3/44Insulators or insulating bodies characterised by the insulating materials; Selection of materials for their insulating or dielectric properties mainly consisting of organic substances plastics; resins; waxes vinyl resins; acrylic resins
    • H01B3/442Insulators or insulating bodies characterised by the insulating materials; Selection of materials for their insulating or dielectric properties mainly consisting of organic substances plastics; resins; waxes vinyl resins; acrylic resins from aromatic vinyl compounds
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08KUse of inorganic or non-macromolecular organic substances as compounding ingredients
    • C08K3/00Use of inorganic substances as compounding ingredients
    • C08K3/18Oxygen-containing compounds, e.g. metal carbonyls
    • C08K3/20Oxides; Hydroxides
    • C08K3/22Oxides; Hydroxides of metals

Definitions

  • DIELECTRIC MATERIAL Filed Feb. 10, 1949 .INVENTOR, I 55. floococw ATTORNEY Patented Mar. 28, 1950 DIELECTRIC MATERIAL.
  • This invention relates to dielectric materials and to a method of making the same.
  • mica and other similar materials have been commonly used as the dielectric body inmany' types of electrical condensers.
  • high quality mica suitable for use as the dielectric body in electrical condensers is now diificult to obtain and its preparation for use as a dielectric body entails considerable work.
  • Objects of the present invention are to provide an effective and efiicient dielectric material and a method of making the same.
  • polystyrene is-mixed with a comminuted inorganic dielectric material under sufficient heat and pressure to liquefy the polystyrene and a liquid which will wet but not dissolve the polystyrene is then added to. obtain a coating composition ofthe required viscosity. A film of a material such as polystyrene may then be coated with this composition.
  • FIG. 1 is adiagrammatic view of a coating apparatus
  • Fig. 2 is a perspective view, partly in section, of an electrical condenser made in accordance with. this invention.
  • a high dielectric constant material having a suitable low loss. characteristic, such as titanium dioxide or various. titanates oi the alkaline earths, may be coated on a suitable film and, the particles of the; dielectric material held together and held to the basic film by a suitable binder.
  • Polystyrene because of its exceptionally low loss characteristic, provides a desirable base material, and, in. addition, in accordance with the present invention, may also be used as a binder material. While polystyrene has been recognized as an excellent dielectric material, it has been difiicult to incorporate materials of high dielectric constants, such as certain inorganic materials, therewith.
  • Titanates and other similar inorganic dielectric materials are not readily coated by polystyrene solutions because the polystyrene solution does not wet the surface of the dielectric material and consequently it is difiicult to obtain a good bond between the particles and the base.
  • polystyrene is heated and mixed with particles of dielectric ma- 2 terial under suitable pressure until the polystyrene is suitably liquefied, the molten polystyrene readily wets and coats dielectric particles such as those noted.
  • 5% of polystyrene and of a dielectric material such as titanium dioxide or various titanates of the alkaline earths; may be placed in a- Banbury type mixer and sufficient pressure exerted on the ma terials in the mixer during the mixing to cause the materials toheat sufiiciently to melt the polystyrene.
  • Hot water may at first be circulated through the walls of the mixing apparatus to expedite the heating and suflicient pressure is used to develop a temperature of about 400 F. in the materials during the mixing operation.
  • the particles with the coating of still liquefied polystyrene may, however, be then transferred to and ground in a ball mill with a non-solvent liquid, such as ethyl alcohol or butyl alcohol, which will wet the coating of liquefled polystyrene without dissolving it, sufficient liquid being used to obtain a coating composition of the required consistency for coating.
  • a non-solvent liquid such as ethyl alcohol or butyl alcohol
  • a film 5 of polystyrene, as shown in Fig. 1, may then be passed through a tank 6 containing this coating composition 1, the coated film passed through an oven 8' to dry, and finally wound on a drum 9.
  • the coated film so. obtained; may then be calendered, cut into sheets. and assembled between sheets of foil.
  • a casing ll of a material such as a phenolic condensation product
  • thermoplastic materials, and particularly polystyrene when. heated, lose their shape. For example, ordinarily, if a film of polystyrene is heated to 180 F., as it may be when a casing is molded around it, it will shrivel and shrink. almost into the form of a pellet.
  • a condenser assembly comprising alternate laminations of coated polystyrene film and foil, the shrinkage of the film may sometimes cause ruptures which will short circuit the condenser.
  • a. polystyrene film coated with the dielectric coating composition hereinbefore described may be calendered and then heated to a temperature on the order of 350 F. to relieve the strains in the polystyrene film.
  • the coating serves as a mold and prevents the polystyrene film from changing shape while heated. Thereafter, the coated film may be heated, as required, as, for example, in molding a casing around a condenser assembly containing the coated polystyrene film.
  • the film has high tensile strength and will retain its shape during the molding operation at ordinary molding temperatures.
  • a dielectric coating composition for a polystyrene base comprising particles of an inorganic dielectric material coated with a polystyrene film and suspended in a liquid which will wet the film without dissolving it.
  • a dielectric coating composition for a polystyrene base comprising particles of titanium dioxide coated with a polystyrene film and suspended in a liquid which will wet the film without dissolving it.
  • a dielectric coating composition for a polystyrene base comprising particles of a titanate of an alkaline earth coated with a polystyrene film and suspended in a liquid which will wet the film without dissolving it.
  • a method of making a dielectric coating composition comprising incorporating a comminuted inorganic dielectric material with polystyrene by mixing them under such heat and pressure as to liquefy the polystyrene and coat the dielectric material with polystyrene and then, while the polystyrene is liquid, adding a liquid to the mixture which will wet the polystyrene, but which is a non-solvent for polystyrene to obtain a coating composition of the required viscosity.
  • a method of making a dielectric coating composition comprising incorporating a comminuted inorganic dielectric material with polystyrene by mixing them under such heat and pressure as to liquefy the polystyrene and coat the dielectric material with polystyrene, and then, while the polystyrene is liquid, adding butyl alcohol to the mixture to obtain a coating composition of the required viscosity.
  • a method of making a dielectric coating composition comprising incorporating a comminuted inorganic dielectric material with polystyrene by mixing them under such heat and pressure as to liquefy the polystyrene and coat the dielectric material with polystyrene, and then, while the polystyrene is liquid, adding ethyl alcohol to the mixture to obtain a coating composition of the required viscosity.
  • a method of making a dielectric coating composition comprising incorporating approximately one part polystyrene with 19 parts of a comminuted inorganic dielectric material by mixin them under such heat and pressure as to liquefy the polystyrene and to cause the polystyrene to coat the dielectric material, and then, while the polystyrene is liquid, adding a liquid which will wet the polystyrene without dissolving it to obtain a coating composition of the required viscosity.
  • a method of making a dielectric coating composition comprising incorporating approximately one part polystyrene with 19 parts of a comminuted titanium dioxide by mixing them under such heat and pressure as to liquefy the polystyrene and to cause the polystyrene to coat the titanium dioxide and then, while the polystyrene is liquid, adding a liquid which will wet the polystyrene without dissolving it to obtain a coating composition of the required viscosity.
  • a method of making a dielectric coating composition comprising incorporating approximately one part polystyrene with 19 parts of a comminuted titanate of an alkaline earth by mixing them under such heat and pressure as to liquefy the polystyrene and to cause the polystyrene to coat the titanate of an alkaline earth, and then, while the polystyrene is liquid, adding a liquid which will wet the polystyrene without dissolving it to obtain a coating composition of the required viscosity.
  • a method of making a dielectric material comprising incorporating approximately one part polystyrene with 19 parts of a comminuted inorganic dielectric material by mixing them under such heat and pressure as to cause the polystyrene to coat the dielectric material, adding a 0 liquid which will wet the polystyrene without dissolving it to obtain a coating composition of the required viscosity, and coating this composition on a film of polystyrene.
  • a method of making a dielectric material comprising incorporating approximately one part polystyrene with 19 parts of comminuted titanium dioxide by mixing them under such heat and pressure as to cause the polystyrene to coat the titanium dioxide, adding a liquid which will wet the polystyrene without dissolving it to obtain a coating composition of the required viscosity, and coating this composition on a film of polystyrene.
  • a method of making a dielectric material comprising incorporating approximately one part polystyrene with 19 parts of a comminuted titanate of an alkaline earth by mixing them under such heat and pressure as to cause the polystyrene to coat the titanate of an alkaline earth, adding a liquid which will wet the polystyrene without dissolving it to obtain a coating composition of the required viscosity, and coating this composition on a film of polystyrene.
  • a method of making a dielectric material comprising incorporating polystyrene with a comminuted inorganic dielectric material by mixing them under such heat and pressure as to liquefy the polystyrene and cause the polystyrene to coat the dielectric material, while the polystyrene is still liquid adding to the mixture a liquid which will wet the polystyrene but which is a non-solvent for polystyrene to obtain a dielectric coating composition of the required viscosity, and applying this composition to a film.
  • a method of making a dielectric material comprising incorporating polystyrene with a comminuted inorganic dielectric material by mixing them under such heat and pressure as to liquefy the polystyrene and cause the polystyrene to coat the dielectric material, while the polystyrene is still liquid, adding to the mixture a liquid which will wet the polystyrene but which is a non-solvent for polystyrene to obtain a dielectric coating composition of the required viscosity, applying this composition to a film of polystyrene, drying and calendering the coated film, and heating the film to relieve the strains in the film;

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  • Chemical & Material Sciences (AREA)
  • Physics & Mathematics (AREA)
  • Spectroscopy & Molecular Physics (AREA)
  • Health & Medical Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Medicinal Chemistry (AREA)
  • Polymers & Plastics (AREA)
  • Organic Chemistry (AREA)
  • Paints Or Removers (AREA)
  • Inorganic Insulating Materials (AREA)
  • Organic Insulating Materials (AREA)

Description

March 28, 1950 HODGDON 2,501,868
DIELECTRIC MATERIAL Filed Feb. 10, 1949 .INVENTOR, I 55. floococw ATTORNEY Patented Mar. 28, 1950 DIELECTRIC MATERIAL.
Frank B. Hodgdon, Salt Lake City, Utah, assignor' to Western Electric Company, Incorporated, New'York, N. Y.,. a corporation of New York Application February 10, 1949;, Serial No. 75,723
1.4 Claims. 1.; This invention relates to dielectric materials and to a method of making the same.
Heretofore, mica and other similar materials have been commonly used as the dielectric body inmany' types of electrical condensers. However, high quality mica suitable for use as the dielectric body in electrical condensers is now diificult to obtain and its preparation for use as a dielectric body entails considerable work.
Objects of the present invention are to provide an effective and efiicient dielectric material and a method of making the same.
In accordance with one embodiment of this invention, polystyrene is-mixed with a comminuted inorganic dielectric material under sufficient heat and pressure to liquefy the polystyrene and a liquid which will wet but not dissolve the polystyrene is then added to. obtain a coating composition ofthe required viscosity. A film of a material such as polystyrene may then be coated with this composition.
Other objects and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the following drawings, wherein Fig. 1 is adiagrammatic view of a coating apparatus, and
Fig. 2 is a perspective view, partly in section, of an electrical condenser made in accordance with. this invention.
In order to provide a dielectric body which will have satisfactory electrical and physical properties, a high dielectric constant material, having a suitable low loss. characteristic, such as titanium dioxide or various. titanates oi the alkaline earths, may be coated on a suitable film and, the particles of the; dielectric material held together and held to the basic film by a suitable binder. Polystyrene, because of its exceptionally low loss characteristic, provides a desirable base material, and, in. addition, in accordance with the present invention, may also be used as a binder material. While polystyrene has been recognized as an excellent dielectric material, it has been difiicult to incorporate materials of high dielectric constants, such as certain inorganic materials, therewith.
Titanates and other similar inorganic dielectric materials are not readily coated by polystyrene solutions because the polystyrene solution does not wet the surface of the dielectric material and consequently it is difiicult to obtain a good bond between the particles and the base. However, it has been found that if polystyrene is heated and mixed with particles of dielectric ma- 2 terial under suitable pressure until the polystyrene is suitably liquefied, the molten polystyrene readily wets and coats dielectric particles such as those noted. In practice, 5% of polystyrene and of a dielectric material, such as titanium dioxide or various titanates of the alkaline earths; may be placed in a- Banbury type mixer and sufficient pressure exerted on the ma terials in the mixer during the mixing to cause the materials toheat sufiiciently to melt the polystyrene. Hot water may at first be circulated through the walls of the mixing apparatus to expedite the heating and suflicient pressure is used to develop a temperature of about 400 F. in the materials during the mixing operation.
Since adequate coating of the dielectric particles by the polystyrene is obtained by the mixing under heat and pressure, no solvent is required. The particles with the coating of still liquefied polystyrene may, however, be then transferred to and ground in a ball mill with a non-solvent liquid, such as ethyl alcohol or butyl alcohol, which will wet the coating of liquefled polystyrene without dissolving it, sufficient liquid being used to obtain a coating composition of the required consistency for coating.
A film 5 of polystyrene, as shown in Fig. 1, may then be passed through a tank 6 containing this coating composition 1, the coated film passed through an oven 8' to dry, and finally wound on a drum 9.
The coated film so. obtained; may then be calendered, cut into sheets. and assembled between sheets of foil. A pair of terminal clamps 10, as
1, shown in Fig. 2, may then be clamped to either end of the assembly. Sometimes it is then desirable to mold a casing ll of a material such as a phenolic condensation product about the assembly. This is done under considerable heat and pressure. Many thermoplastic materials, and particularly polystyrene, when. heated, lose their shape. For example, ordinarily, if a film of polystyrene is heated to 180 F., as it may be when a casing is molded around it, it will shrivel and shrink. almost into the form of a pellet. When a casing is molded about a condenser assembly comprising alternate laminations of coated polystyrene film and foil, the shrinkage of the film may sometimes cause ruptures which will short circuit the condenser.
As stated in my Patent No. 2, 14.6,928, dated August 8, 1948,, a. polystyrene film coated with the dielectric coating composition hereinbefore described may be calendered and then heated to a temperature on the order of 350 F. to relieve the strains in the polystyrene film. The coating serves as a mold and prevents the polystyrene film from changing shape while heated. Thereafter, the coated film may be heated, as required, as, for example, in molding a casing around a condenser assembly containing the coated polystyrene film. The film has high tensile strength and will retain its shape during the molding operation at ordinary molding temperatures.
What is claimed is:
1. A dielectric coating composition for a polystyrene base comprising particles of an inorganic dielectric material coated with a polystyrene film and suspended in a liquid which will wet the film without dissolving it.
2. A dielectric coating composition for a polystyrene base comprising particles of titanium dioxide coated with a polystyrene film and suspended in a liquid which will wet the film without dissolving it.
3. A dielectric coating composition for a polystyrene base comprising particles of a titanate of an alkaline earth coated with a polystyrene film and suspended in a liquid which will wet the film without dissolving it.
4. A method of making a dielectric coating composition comprising incorporating a comminuted inorganic dielectric material with polystyrene by mixing them under such heat and pressure as to liquefy the polystyrene and coat the dielectric material with polystyrene and then, while the polystyrene is liquid, adding a liquid to the mixture which will wet the polystyrene, but which is a non-solvent for polystyrene to obtain a coating composition of the required viscosity.
5. A method of making a dielectric coating composition comprising incorporating a comminuted inorganic dielectric material with polystyrene by mixing them under such heat and pressure as to liquefy the polystyrene and coat the dielectric material with polystyrene, and then, while the polystyrene is liquid, adding butyl alcohol to the mixture to obtain a coating composition of the required viscosity.
6. A method of making a dielectric coating composition comprising incorporating a comminuted inorganic dielectric material with polystyrene by mixing them under such heat and pressure as to liquefy the polystyrene and coat the dielectric material with polystyrene, and then, while the polystyrene is liquid, adding ethyl alcohol to the mixture to obtain a coating composition of the required viscosity.
7. A method of making a dielectric coating composition comprising incorporating approximately one part polystyrene with 19 parts of a comminuted inorganic dielectric material by mixin them under such heat and pressure as to liquefy the polystyrene and to cause the polystyrene to coat the dielectric material, and then, while the polystyrene is liquid, adding a liquid which will wet the polystyrene without dissolving it to obtain a coating composition of the required viscosity.
8. A method of making a dielectric coating composition comprising incorporating approximately one part polystyrene with 19 parts of a comminuted titanium dioxide by mixing them under such heat and pressure as to liquefy the polystyrene and to cause the polystyrene to coat the titanium dioxide and then, while the polystyrene is liquid, adding a liquid which will wet the polystyrene without dissolving it to obtain a coating composition of the required viscosity.
9. A method of making a dielectric coating composition comprising incorporating approximately one part polystyrene with 19 parts of a comminuted titanate of an alkaline earth by mixing them under such heat and pressure as to liquefy the polystyrene and to cause the polystyrene to coat the titanate of an alkaline earth, and then, while the polystyrene is liquid, adding a liquid which will wet the polystyrene without dissolving it to obtain a coating composition of the required viscosity.
10. A method of making a dielectric material comprising incorporating approximately one part polystyrene with 19 parts of a comminuted inorganic dielectric material by mixing them under such heat and pressure as to cause the polystyrene to coat the dielectric material, adding a 0 liquid which will wet the polystyrene without dissolving it to obtain a coating composition of the required viscosity, and coating this composition on a film of polystyrene.
11. A method of making a dielectric material comprising incorporating approximately one part polystyrene with 19 parts of comminuted titanium dioxide by mixing them under such heat and pressure as to cause the polystyrene to coat the titanium dioxide, adding a liquid which will wet the polystyrene without dissolving it to obtain a coating composition of the required viscosity, and coating this composition on a film of polystyrene.
12. A method of making a dielectric material comprising incorporating approximately one part polystyrene with 19 parts of a comminuted titanate of an alkaline earth by mixing them under such heat and pressure as to cause the polystyrene to coat the titanate of an alkaline earth, adding a liquid which will wet the polystyrene without dissolving it to obtain a coating composition of the required viscosity, and coating this composition on a film of polystyrene.
13. A method of making a dielectric material comprising incorporating polystyrene with a comminuted inorganic dielectric material by mixing them under such heat and pressure as to liquefy the polystyrene and cause the polystyrene to coat the dielectric material, while the polystyrene is still liquid adding to the mixture a liquid which will wet the polystyrene but which is a non-solvent for polystyrene to obtain a dielectric coating composition of the required viscosity, and applying this composition to a film.
14. A method of making a dielectric material comprising incorporating polystyrene with a comminuted inorganic dielectric material by mixing them under such heat and pressure as to liquefy the polystyrene and cause the polystyrene to coat the dielectric material, while the polystyrene is still liquid, adding to the mixture a liquid which will wet the polystyrene but which is a non-solvent for polystyrene to obtain a dielectric coating composition of the required viscosity, applying this composition to a film of polystyrene, drying and calendering the coated film, and heating the film to relieve the strains in the film;
FRANK B. I-IODGDON.
No references cited.

Claims (1)

14. A METHOD OF MAKING A DIELECTRIC MATERIAL COMPRISING INCORPORATING POLYSTYRENE WITH A COMMINUTED INORGANIC DIELECTRIC MATERIAL BY MIXING THEM UNDER SUCH HEAT AND PRESSURE AS TO LIQUEFY THE POLYSTYRENE AND CAUSE THE POLYSTYRENE TO COAT THE DIELECTRIC MATERIAL, WHILE THE POLYSTYRENE IS STILL LIQUID, ADDING TO THE MIXTURE A LIQUID WHICH WILL WET THE POLYSTYRENE BUT WHICH IS A NON-SOLVENT FOR POLYSTYRENE TO OBTAIN A DIELECTRIC COATING COMPOSITION OF THE REQUIRED VISCOSITY, APPLYING THIS COMPOSITION TO A FILM OF POLYSTYRENE, DRYING AND CALENDERING THE COATED FILM, AND HEATING THE FILM TO RELIEVE THE STRAINS IN THE FILM.
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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2724659A (en) * 1951-12-03 1955-11-22 Patent & Licensing Corp Colored building granule and process of preparing the same
US2791705A (en) * 1952-01-24 1957-05-07 Metzeler Gummiwerke Ag Electric non-conductors for producing static electricity
US2794753A (en) * 1951-08-23 1957-06-04 Electric Storage Battery Co Method of producing microporous materials resistant to chemical attack
US2904618A (en) * 1956-07-30 1959-09-15 Sprague Electric Co Sealed housing and indexing means for electrical components

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
None *

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2794753A (en) * 1951-08-23 1957-06-04 Electric Storage Battery Co Method of producing microporous materials resistant to chemical attack
US2724659A (en) * 1951-12-03 1955-11-22 Patent & Licensing Corp Colored building granule and process of preparing the same
US2791705A (en) * 1952-01-24 1957-05-07 Metzeler Gummiwerke Ag Electric non-conductors for producing static electricity
US2904618A (en) * 1956-07-30 1959-09-15 Sprague Electric Co Sealed housing and indexing means for electrical components

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