temperature
Increasing the energy efficiency of a rotor-pulsed cavitation heat generator using the electrohydraulic effect
Geothermal conditions and vertical thermobaric zoning of hydrocarbon deposits in the eastern oil and gas-bearing region of Ukraine
Spatial and Temporal Trend Analysis of Meteorological, Hydrological and Hydrogeological Data (by the Example of the San River Basin)
Study of diffusion processes in carrot particles
Investigation of temperature processes in the process of interaction of technological units and production of products in a machine of bread baking
Combined Thick-film Structures Based on Modified Nanoceramics for Sensor Electronics
Combined temperature and humidity sensitive thick-film structures based on technological modified nanostructured ceramics (Cu0.1Ni0.1Co1.6Mn1.2O4 with p+-type of electrical conductivity, Cu0.1Ni0.8Co0.2Mn1.9O4 with p-type of electrical conductivity and magnesium aluminate i-type MgOAl2O3), as well as temperature-sensitive p-p+ and p-p+-p structures were prepared and studied. It is shown that increasing of the quantity of thick-film layers results in the improvement of the temperature sensitivity of thick-film structures.