DE1469877B2 - Conductive surface material, in particular film made of polyvinyl chloride with a content of carbon black and polyethylene glycol ester - Google Patents

Description

Electrically conductive sheet materials made of plastic, including fabric foils, coated fabrics, Foil plates reinforced with woven or braided or knitted fabrics are available in different Embodiments known and for some use, in the case of electrostatic charging too fear is prescribed. So you have polyethylene films by adding relatively large Make quantities of conductive substances in powder form, such as soot, metals, metal compounds conductive can. ,

The conductivity achieved is in the order of magnitude of 10 ~ ⁸ , without the other properties, in particular the strength of the polyethylene film, being adversely affected. Similarly, rubber and synthetic rubber can be made conductive. Strangely enough, however, the known measures cannot be applied to polyvinyl chloride.

When adding the mentioned conductive substances in the known quantities, sheet materials made of polyvinyl chloride lose their mechanical properties Properties, e.g. B. the values of elongation and tensile strength are reduced, even leave such foils are much more difficult to weld. Highly stressed weld seams, the tensile and Bending loads are to be absorbed in the case of sheet materials made of polyvinyl chloride, which are the named contain conductive substances in known quantities, no longer producible. So much for you has tried by adding conductive substances, while maintaining portable mechanical and welding technology Properties of polyvinyl chloride and especially sheet materials made of polyvinyl chloride To make conductive, these conductive substances had to be added in such small quantities that one that meets the practical requirements, e.g. B. Preventing static electricity from friction Conductivity could not be achieved. In addition, it is known to rely on sheet materials Apply polyvinyl chloride conductive surface layers. However, this measure is also disadvantageous, since with the wear and tear of the surface layer the conductivity is also lost, so that in the case of frictional stresses a permanent release from an electrostatic Charging is not achievable in this way.

The invention has set itself the task of providing a sheet material, in particular a film, made of polyvinyl chloride, to make electrically conductive so that the surface material with sufficient conductivity retains its mechanical properties and, in particular, its weldability.

The invention relates to a flat material, in particular a film, made of polyvinyl chloride with an additive powdery conductive substances. The invention consists in that a base material made of soft polyvinyl chloride known composition as admixed powdery conductive substances a Carbon black combination and also contains polyethylene glycol ester. According to a preferred embodiment, the carbon black combination is used in amounts of 5 up to 6%, based on the total mass, added to the material, while the polyethylene glycol ester in amounts of 4 to 5%, based on the total mass, in which the material should be contained. Of the Polyethylene glycol ester can of course be replaced by another material that is the same Has properties such as B. antistatic effect, weakly hygroscopic, mechanical attachment to the polyvinyl chloride molecule, so no fixed connection, so that the distribution and bridging of the soot is given.

The carbon black combination that is used in the sheet material according to the invention exists from a carbon black with large droplet-shaped particles and another carbon black with a smaller spherical shape Particle size with a large, rough surface tending to form corona. The particle size of the Soot particles themselves are within the scope of what is customary. Appropriately one uses a carbon black combination of 80% large particles, particle sizes 1200A, and 20% carbon black with rough Surface, particle size 260 A.

The production of the electrically conductive sheet material is carried out as follows: The polyvinyl chloride paste is applied in several layers to the carrier on a carrier, for example a fabric or just a coarse-meshed fabric, and each layer is gelled separately. The gelation takes place expediently at temperatures of about 190 ^° C.

The advantages achieved by the invention are primarily to be seen in the fact that the conductive sheet material according to the invention has a surprisingly high conductivity through and through and not only on the surface or in surface layers. This is namely less 10 ~ ⁴ ohms " ¹ and is thus orders of magnitude better than with known conductive sheet materials based on polyvinyl chloride. This advantageous through-and-through conductivity in the sheet material according to the invention is explained by the fact that the polyethylene glycol ester attaches to the polyvinyl chloride molecule and In addition, the planar material according to the invention has optimal mechanical and welding properties so that it meets all requirements and can be processed by welding.

Claims (5)

Patent claims: 1. Conductive surface material, in particular film made of polyvinyl chloride containing carbon black and Polyäthylenglycolester, characterized in that it comprises a Rußkombination of a carbon black with large teardrop shaped .... particles and a carbon black having small spherical particles with a large, rough and corona formation Contains a sloping surface. 2. Conductive sheet material according to claim 1, characterized in that the carbon black combination is contained in the material in quantities of 5 to 6%, based on the total mass. 3. Conductive sheet material according to claim 1 and 2, characterized in that the polyethylene glycol ester in amounts of 4 to 5%, based on the total mass, is contained in the material. 4. A method for producing a sheet material according to claims 1 to 3, wherein a soft polyvinyl chloride paste spread on a base and this through application is gelled by heat, characterized in that the soft polyvinyl chloride paste first the carbon black combination and the polyethylene glycol ester is added and this mixture is applied to the base in several layers as well each layer is gelled by itself. 5. The method according to claim 4, characterized in that the gelation at temperatures of about 190 ° C is carried out.