SU629483A1 - Hygristor manufacturing method - Google Patents

Description

one

The invention relates to a measuring technique / namely to moisture measurement of air and gases. It can be applied in meteorology, agriculture, most areas of industry, and scientific research.

The sorption sensors of air humidity based on organic polymers, known as hygristors, are known. According to known methods, the polymer solution is applied by dipping or centrifuging on an insulating substrate with moisture-resistant electrodes, and then chemically treated or heat-treated by slow heating to 150200c l.

However, their characteristics are unstable.

The closest technical solution to the invention is a method of manufacturing a hygrometer, consisting in applying a moisture-sensitive substance to a substrate, followed by heat treatment, washing in distilled water and secondary heat treatment 2.

The sensors manufactured by this method are distinguished by sufficiently high sensitivity and mechanical strength.

However, with this method of manufacture, because of the length of the procedure and its relative complexity, the cost of manufacturing the hygristors increases.

The purpose of the invention is to increase the stability of the characteristics of the hygristors and simplify the processing technique.

This is achieved by the fact that, after washing, the hygrostrator is wrapped tightly in an ashless paper, heated to 200-220 ° C and kept at this temperature for 8-10 hours.

The carbon formed during the charring of de-ashes paper heated to a temperature lower than the ignition temperature during the heat treatment process is introduced into the structure of the organic polymer, forming stable branched chains, as well as increasing the conductivity of the sensor.

The implementation of the proposed method allows increasing the possibility of using hygristors without re-grading and calibration, increasing the reliability of hygrometric instruments and devices based on them. In addition, the cost of manufacturing hygristors is reduced by simplifying and shortening the time the technique used today.

Pr im. 10 hygristors are manufactured in a conventional technology, which involves the centrifugal application of a moisture-sensitive substance, heat treatment, washing in running distilled water, secondary heat treatment for 3–4 hours, placing the sensors at 100% humidity and aging under an alternating voltage of 3 V for 4 day

In the manufacture of the other 10 hyristors, the last 3 operations are replaced by operations corresponding to

the proposed method. The hygristors are wrapped tightly with deashed filter paper and secured with clips. Then heat treatment is carried out at 200-220s for 8 hours. After that, their moisture characteristics in the climate chamber are removed.

The table shows the values of the dependence of the resistance of the hygristors on the humidity for 2 samples, indicating the expansion of the lower limit of measurement due to an increase in the number of carriers, as well as the normal nature of the humidity characteristics of the hygristors in the absence of aging.

Claims (2)

1. USSR author's certificate number 381013, cl. q 01 N 27/04, 1973. 2. USSR author's certificate number 505950, cl. Q 01 W 25/56, 1974.