DD205692A1 - CONDUCTIVE TRANSFER - Google Patents

Abstract

The invention concerns a guiding means for generating a conductive layer on non-conductive substances, such as BSPW. PUR FOAM, WOOD, FLEECE, NEEDLE FELT, CARPET, ETC. OBJECT OF THE INVENTION IS THE STATIC CHARGING OF COMPONENTS, WORKPLACES, CLOTHING ETC. IN MICROELECTRONICS TO PREVENT. THE INVENTION HAS THE OBJECT OF DEVELOPING A CONDUCTIVE CONVEYANCE FOR NON-CONDUCTIVE SUBSTANCES THAT MAY CREATE A LOW OR SUBSTANCE ON THE DIFFERENT NON-LEADING SUBSTANCES SO THAT AN EXISTING STATIC CHARGE WAS SUFFICIENTLY DISTRIBUTED TO THE DISTRIBUTION AND ES NOT TO A SPARKEN RELIEF AND THEREFORE TO THE DESTRUCTION OF MICROELECTRONIC COMPONENTS. According to the invention, in deionized or distilled water, under continuous stirring, PRAEWOZELL WON 100, ACETYLENE RUSH, WATER SOLID PLASTIC PVA OR PVAC, AND GLYCEROL SOFTENER WILL BE USED AS A NETWORK. THE DISPERSION THUS OBTAINED CAN BE RAISED BOTH WITH BRUSH AND SPLASHING PISTOL OR BY DIVING TO THE DIFFERENT NON-LEADING SUBSTANCES.

Description

241 030

Title of the invention Conductive coating agent

Field of application of the invention

The invention relates to a conductive coating agent for producing a conductive layer on non-conductive substances, such as, for example, polyurethane foam, wood, fleece, needle felt, carpet floor, etc.

Characteristic of the known technical solutions In OE-OS 21 31 822 a base material for applying a semiconductive layer to a plastic-insulated electrical cable is described. This semiconducting layer is obtained by coagulating a carbon black-mixed solution containing finely dispersed polyethylene dissolved in water and stabilized with an emulsifying agent. This mixed with Kohleruß aqueous solution is applied to the plastic insulation, z. B. by spraying, by pouring or immersion in a container containing the solution. The solution contains 5 - 5G% finely dispersed polyethylene, which may possibly be cross-linked. The remainder of the solution consists of water and only a small part of an emulsifier. To obtain a semiconducting amount, the solution is mixed with 1 - 25% carbon black

a particle size of preferably less than 1.5 microns added. After evaporation of the water, a semiconducting layer has formed.

A disadvantage of this solution is that their use is limited only to the case described and a universal use is not readily possible. Further disadvantages are the required heat treatment associated with greater expense, as well as the sticky character of the semiconductive layer produced.

DE-OS 23 26 936 describes a conductive liquid coating agent comprising binders, pigments, additives, solvents and water, wherein the coating agent additionally contains conductive fiber materials and has a specific resistance between 10 "and 10 ⁺ ohm cm as the hardened layer The conductive liquid fibers should preferably have a length of between 0.01 and 50 mm and a diameter of between 0.1 and 100 microns, and all inorganic and organic substances are suitable as the layer-forming binder Curing can be effected by simple drying at normal or elevated temperature. The production of the conductive layer is carried out by the usual methods of spraying, brushing, pouring, tauc The technological expenditure for the production of the liquid coating agent is relatively high, whereby in particular a high expenditure for the production of the fibers is necessary.

Object of the invention

The aim of the invention is to prevent the static charge of components, jobs, clothing, etc. in microelectronics.

DISCLOSURE OF THE NATURE OF THE INVENTION The invention is based on the Aufgäbe, a conductive

To develop a coating agent for nonconductive substances by which a low or medium impedance coating on a wide variety of non-conductive substances can be produced with little effort, so that an existing static charge slowly drains to the ground and it does not cause a spark discharge and thus the destruction of microelectronic According to the invention, this is achieved in that a wetting agent additionally exists in a dispersion and is dissolved as a water-soluble plastic PVA or PVAC. As a wetting agent Präwozell WON 100 is used. A plasticizer present in the dispersion is glycerine.

embodiment

The solution according to the invention will be explained in more detail below using an exemplary embodiment. MOS circuits, CMOS devices and circuits, but also all other semiconductor devices can charge themselves electrically and be damaged or destroyed after a breakdown by static discharge. In order to prevent this, application of an electrically conductive substance to non-conductive substances which come into contact with these components, such as formelastic cellular polymers, on fleece, wood, cardboard or other plastic materials is necessary. All parts coming into contact with the circuits mentioned must be made electrically conductive. For this purpose, a dispersion is prepared which contains deionized or distilled water as dispersing agent. Furthermore, it contains electrically conductive materials as the disperse phase, preferably carbon black. In addition, a wetting agent is present in the dispersion and a water-soluble plastic, preferably PVA or PVAC, is further dissolved for adhesive adhesion at interfaces. As a wetting agent Präwozell WON 100 is used. ..

In addition, a plasticizer in the form of glycerol is still present. Specifically, the preparation of the dispersion is as follows, Tn II be deionized or distilled water

with constant stirring

5 - 10 ml wetting agent (Präwozell WON 100)

30-5Og acetylene black

40 - 60 g PVA or PVAC

30-5Og glycerin

brought in.

The wetting agent has the task of keeping the finely divided soot in suspension. The water-soluble plastic used according to the invention PVA or PVAC provides an adhesion effect at the interfaces, wherein the conductivity can be reduced by increasing the PVA or PVAC content and the conductivity can be improved by a reduction. At the same time, the abrasion resistance of the layer produced can be varied by means of the PVA or PVAC content. The plasticizer used in the form of glycerol is particularly required when applied to formelastic cellular polymers and can be used in

^Anteil its share be varied. The ready-mixed dispersion can be applied to the non-conductive substances both with a brush and with a spray gun or by dipping. After a curing time of 24 to hours in the air, the substances thus treated are conductive and thus ready for use. With the conductive coating agent according to the invention, a low-resistance or medium-resistance coating is produced on a wide variety of nonconductive substances so that any static charge flows off slowly and spark discharge and thus destruction of components is avoided By using the solution according to the invention and the associated risk-free handling of microelectronic components, a substantial increase in the yield during the processing of these components is achieved.

Claims (3)

invention claim 1. Conductive coating agent for producing a conductive layer on non-conductive substances, consisting of a dispersion of distilled water, finely divided Acetylenruß, a water-soluble plastic and plasticizers, characterized in that in addition a wetting agent in the dispersion. and dissolved as a water-soluble plastic PVA or PVAC. 2. Conductive coating agent according to item 1, characterized in that is used as wetting agent Präwozell VVON 100. .. 3. Conductive coating agent according to item 1 + 2, characterized in that the plasticizer present in the dispersion is glycerol.