SU972359A1 - Thermal conductivity determination method - Google Patents

Description

(54) METHOD FOR DETERMINING THE HEAT CONDUCTIVITY COEFFICIENT

The invention relates to thermophysical instrumentation and can be used to determine the thermal conductivity of soils in field conditions without sampling in engineering and construction research. The known method of determining the thermal conductivity of materials using a reference sample, made in the form of a plate, which is kept on the surface of the test material until their temperatures equalize, and then after an instant cooling of the external surface of the reference sample, the temperature change in time on both sides of the sample is recorded thermal conductivity of the material under study 1. This method allows to measure the thermal conductivity of materials without sampling, however it is difficult to implement in the field. The closest in technical essence to the present invention is a method for determining the thermal conductivity of samples of materials, which consists in creating heat flux heaters in the test and reference samples and maintaining equal temperature differences 2 in them. The disadvantage of this method is the necessity of sampling materials, which leads to a greater expenditure of time for preparatory work. Sampling of soil also leads to a change in thermal properties, which reduces the accuracy of measurements. The disadvantage is also the complexity of the implementation of the method in the field. The purpose of the invention is to improve the accuracy of determining the coefficient of thermal conductivity in the field without taking samples. The goal is achieved by the fact that, according to the method of determining the thermal conductivity coefficient, which involves creating heat fluxes in the test and reference samples and maintaining equal temperature differences, in the zone of contact between the heaters and the reference materials. establish a stationary mode of heat transfer,

Claims (1)

Claim A method for determining the thermal conductivity coefficient, which consists in creating heat fluxes in the test and reference samples by the heaters and maintaining equal temperature differences, characterized in that, in order to improve the accuracy of determination, equal temperatures are maintained in the contact zone of the heaters with the test and reference materials until the heaters are controlled until stationary heat transfer mode, after which the power of the heaters is measured and the coefficient of thermal conductivity is determined by the formulas e = - ^ - · L _e , where λ ^ ,, L _{e -} respectively, the thermal conductivity coefficients of the studied and reference materials; P _and , P _{e -} respectively, the power of the heaters of the investigated and reference materials.