SU1375688A1 - Method of electroplating in hot electrolyte - Google Patents

Abstract

The invention relates to electroplating and can be used in hot-coating. electrolyte. The purpose of the invention is to enhance the functionality by independently adjusting the average and effective values of the bath current. This method includes re-. current bathing and temperature | of the electrolyte, moreover, a constant average current value is set, the effective current value is measured 1 "and the effective" current value is changed according to the t (C) f-I- dependence. A device for implementing the method includes electric current form and current regulator 2 and 3, and instrumentation devices 4 and 5 for controlling the average and effective current values of the electroplating bath 6. Setting the required bath temperature by adjusting the current waveform at a constant current average value allows for targeted current changes. and temperature conditions during the technological process with control through a single control channel and in general expands the functionality of the process. 1 il. i (L

Description

f-invention relates to electroplating and can be used when applying coatings in hot electrolyte.

The purpose of the invention is to enhance the functionality by independently adjusting the average and effective values of the bath current.

The drawing shows the functional diagram of the device implementing the proposed method of electroplating in a hot electrolyte.

The device is powered from the electrical network 1 and contains regulators 2 and 3, respectively, of current strength and form, and instrumentation devices 4 and 5 for monitoring and effective values of galvanic current, 6 here. Regulators 2 and 3 of current strength and shape instrumentation 4 and 5 of the average and effective values of the current of the bath 6 are the control device 7, affecting the control object (galvanic bath 6), while the control instrumentation 4 and 5 control the disturbance on the control object nor (galvanic bath 6).

It is known that the current 1 "and average 1. current values are connected through the current waveform coefficient K., ..., the value of which is equal to one at a constant non-pulsing current and goes to infinity when the load is supplied with current pulses with a high duty cycle. The greater the difference in the current curve from the straight line, the greater the value of the form factor K and the larger the effective value of the current at a fixed (unchanged) average I K. - and consequently, the greater the thermal effect of the current at its specified average value. This effect is directly proportional to K V.

In the proposed method, the control of the current and temperature of the electroplating bath 6 is carried out by separately acting on the control system through regulators 2 and 3 of the current and shape of the current with the instrumentation 4 and 5 of the average and actual values of the bath current.

The method is carried out as follows.

With instrumentation 4, the average current is measured and the regulator 2 sets the required value of the bath current (the amount of electricity passed per unit time).

As a current regulator 2, for example, a controlled rectifier can be used, and as a device 4, an ammeter of a magnetoelectric measuring system.

Then, using the measuring instrument 5, the effective current value is measured and the required electrolyte temperature of the bath 6 is adjusted by means of it. Regulator 3 Current waveforms.

As an instrument 5, an ammeter of an electromagnetic measurement system can be used, the scale of which, for convenience of use, is pregrouped in degrees Celsius based on the curve of the heating of the bath t (° C) f (la). S as a regulator of the shape of the current curve can be used, for example, a choke of adjustable inductance, changed by changing the number of turns of its winding, the degree of magnetism of its ferromagnetic core, etc., connected in series to the bath current control system. In this case, a single channel is formed to control both the current of the bath and the temperature of the electrolyte in it.

Setting the required temperature of the galvanic bath by regulating the shape of the current curve at a constant set average current of the bath makes it possible to purposefully change the current and temperature mode of the bath during the process with control through a single control channel and generally expands the functionality of the process.

Claims (1)

Invention Formula A method of applying electroplatings in a hot electrolyte, including regulating the current of the bath and the temperature of the electrolyte, characterized in that, in order to extend the functionality by independently adjusting the average and effective values of the current of the bath, they set a constant average 31375688 the current value of the bath, the de-acting current value of the bath current t is determined by the current value of current 1 and is changed according to the dependence t (C) f (1).