SU133123A1 - Method for detecting pores or small holes in films or thin coatings of dielectric material - Google Patents

Description

The known methods for detecting defects in the form of pores or small holes in films or thin coatings of dielectric material by corona-discharging a dielectric tested on a metal base and measuring the current between the base and the ground does not exclude the possibility of damage to the dielectric during the test.

In the described method, in order to prevent dielectric breakdown and damage, corona discharge is used when the field strength is less than breakdown to excite pulsating discharges in the pores of the dielectric material, the presence of which is detected, for example, by an oscilloscope, to detect these defects.

The drawing shows the irrationium scheme of the described method.

The film is located on the metal surface of the electrode 2 or film / and the electrode 2 is integral, as is the case when the dielectric coating is applied to the metal surface. Electrode 2 through impedance 3 is grounded. At some distance against the test portion of the surface of the fillet / is the corona electrode 4 of suitable shape and size, or a system of corona electrodes connected to the positive pole of the high constant voltage source 5. The negative pole of source 5 is grounded. A device 6 is connected in parallel with the impedance 3 (for example, a cathode oscilloscope), which registers or otherwise reacts to current pulsations in the impedance 3.

With sufficient voltage source 5 on the eletrod 4 a positive corona discharge occurs. From the ionization region v

electrode 4 through the gas gap between the electrodes 4 and 2, a stream of positive ions is formed, settling on the surface of the pulley 1. At a certain density of the surface charge on the film in its pores 7, a field strength is created that is sufficient for a pulsating negative charge to flow through the impedance 3 is recorded by the device 6. The film / and the electrode 4 can move relative to each other. To conduct continuous control of an endless film, electrode 2 must have the form of a rotating metal cylinder. In the absence of a decks in the film, a direct current flows through it, the strength of which depends on the conductivity of the dielectric. If the film is defective, the oscillogram of the pulsating discharge in the pores shows a current ripple.

Upon completion of testing, a positive charge from the surface of the film is removed by creating a metered negative corona on electrode 4 or by any other known method of compensating for surface charge.

Subject invention

A method of detecting pores or small holes in films or thin Kiix coatings of dielectric material with a corona effect on a test dielectric located on a metal base and measuring the current between the base and the ground, characterized in that in order to prevent the possibility of damage to the dielectric in the process testing, the presence of these defects in the dielectric material is judged by the pulsating discharge that occurs in its pores under the influence of a corona discharge when the strength of the floor is less than robust, and the magnitude of the discharge current is fixed by known devices, such as an oscilloscope.