METROLOGICAL SUPPORT ANDRATIOS OF COMPONENTS TO INCREASE THE MOISTURE SENSITIVITY OF A COMPOSITE MATERIAL WITH NANOSIZED
Main Article Content
Abstract
A moisture sensor based on a composite material with nana scale structures has been developed and the main static characteristics have been studied depending on the relative humidity of the air, and are also used to measure the moisture content of agricultural products. Shown is the effectiveness of the proposed method for measuring the temperature and humidity of agricultural products. The results of experimental studies show that with an increase in the area of the regions (contact), the crystal shunts producing nana particles with a simultaneous decrease in the total porosity of the sensor material with an increase in the duration of heat treatment, which leads to an increase in the volume of the sensor with a simultaneous decrease in its passive volume. This proves the effectiveness of the application in sensors for assessing the moisture content of silicon crystals.
Article Details
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
References
Egamberdiev, B. E., Sadiy, S. A., & Isroilov, M. R. (2021). Electron spectroscopic studies of cosi2 epitaxial films on silicon. Journal of Physical and Mathematical Sciences, 2(1).
Murodkosimovich, I. F., Ganisherovich, B. A., & Sunnatievich, A. B. (2021). Method for determining the standard measurement error Measurement. International Engineering Journal of Research and Development, 6(ICDSIIL), 5-5. 3. Egamberdiev, B., Isroilov, F., & Rahmatullaev, C. (2020). Humidity sensors based on composite material with nano-dimensional structures. Euroasian Journal of Semiconductors Science and Engineering, 2(3), 36.
Egamberdiev, B. E., Tachilin, S. A., Toshev, A. R., Isroilov, F. M., and Dekhkanov, M. S. (2020). Investigation of the formation of clusters of gadolinium atoms in silicon. Journal of Critical Reviews, 7(3), 297-301.