SU90237A1 - The method of determining the heat-conducting properties of materials - Google Patents

Description

c A method is proposed for determining the heat-conducting properties of materials under the conditions of their natural occurrence using a heat source attached to the model material and placed in the material under study. The determination of the heat-conducting properties of materials is made by the magnitude of the balance of a non-equilibrium measuring bridge with two resistance thermometers, one of which is placed in the heater, and the second is a certain distance from it; moreover, the determination of thermal conductivity is carried out at a certain current strength in the heater and at a pre-established equilibrium when the device is placed in an environment that is taken as exemplary. The essence of the method for which a device having an electrical circuit is used is as follows. Suppose the following heat flux scheme: from a small source (probe), heat is distributed in the medium, overcoming the internal resistance of the heat transfer of the insulation, and then external heat transfer in the medium. Let the temperature ti inside the probe, the temperature to and the heat flux in the external medium. Then a schematic representation of the heat flux can be obtained, consider the following formula: where a is the internal one with the opposite of the heat transfer; o-distance surface zozda; l is the thermal conductivity of the medium. Thus, the relationship of the temperature jump with the thermal conductivity of the medium can be used to measure the values of / -. The electrical circuit of the device for carrying out the method includes the following parts (see drawing): g is the resistance of the first arm of the bridge, placed with the heater in the test medium; r-2 is the resistance of the second arm of the bridge, placed at a distance from the heater in that 1st medium; GZ and G4-; ballast resistance; I-heating element; G-galvanometer; O-reohord; R-rheostat and B-battery or battery.

L 90237 2 - The operation of the device is as follows. Suppose first that the resistances ri, ha, rh, and r are chosen to obtain a zero current in the bridge in the absence of heat. When the current in the heater R is low, the resistance ri increases as compared with resistance G2. The reading of the galvanometer is proportional to the temperature difference ti- / o and its value corresponds to this difference in the above formula with an accuracy up to nostoy factor. Changing the position of the reichord point O allows to compensate for the non-equality of the resistances r and r2n to set the arrow of the galvanometer to zero. At a zero reading of the galvanometer, the position of the reichord corresponds to the heating of the probe in the medium, which is assumed to be thermal as the reference. After the device has been installed, the heightening of the thermal stability of the medium is noted by a galvanometer. It should be noted that the installation of the zero position on the reichord and the readings on the galvanometer depend on the current strength in the heater. In order to set the normal current strength, it is advisable to lure a galvanometer with a shunt as a control interface.

Subject invention

The method of determining the teloil wired properties of materials under the conditions of their natural occurrence and, using a heat source, assumed to be shaped and mixed into the material under study, is about t and is determined by the fact that the determination of the thermally conductive properties of materials is made by the amount of unbalanced measuring bridge with two thermometers of electrical coactivity, one at a time, placed in the heater, and another at a certain distance from it — and at a certain current strength supplied to the heater and at tanovlenii equilibrium conditions in placing the device in an environment for nrnam fifth exemplary.