SU763757A1 - Device for measuring heat conductance of materials - Google Patents

Description

The invention relates to tests using thermal means, namely to the determination of the thermophysical properties of materials. A device for measuring thermal conductivity is known, comprising two thermostatic plates, one of the plates associated with an electric heater, and the second with a flow-through calorimeter. The heat flux impregnating the test material placed between the plates is determined by the heating of water flowing through the calorimeter 1. However, the use is fraught with difficulties in testing. A device containing two heater plates, a heater and a refrigerator, as well as a heat meter installed in one of the plates 2, is known. However, this device is not intended for testing in temperatures below room temperature, since the heater in it uses Joule heat and the refrigerator uses running water at room temperature. . The closest to this invention is a device for determining thermal conductivity, including two thermostatic plates, designed to place between the sample under study, thermoelectric batteries evenly distributed over the surfaces of the plates. Electrically interconnected and with a power source. The use of thermopiles as sources and sinks of heat flux penetrating the sample, allows testing at temperatures of 5f above and below room temperature. The heat flux at ecm is measured by a heat meter, which is supplied with one of piece 3. The disadvantage of the device is the limitation of accuracy due to the thermal resistances resulting from the presence of a heat meter. The purpose of the invention is to improve the accuracy of the device. This goal is achieved by the fact that one of the thermoelectric batteries, for example, is central to the thermostatic plate, connected to an additionally introduced electric energy meter.

The proposed thermoelectric battery, thus performing the function of a thermostating element, acts simultaneously as a heat flow indicator. The value of heat flow is proportional to the amount of electrical energy supplied to the battery.

The elimination of additional thermal resistances associated with the installation of a heat meter increases the accuracy of the device.

FIG. 1 shows a structural diagram of the device; in fig. 2 is a power supply and heat flow measurement circuit.

Test sample 1 is placed between thermostatic plates 2. Thermoelectric batteries 3 and 4 are evenly placed on the surface of the plates, one of which (3) is used as a heat flow meter. The batteries are electrically interconnected (in series) and connected to the rectifier 5 - the power supply. Battery 3 is connected to a power meter 6.

The use of the proposed method allows to increase the accuracy of measurement of thermal conductivity, when conducting research and development work and controlling the heat-shielding properties of products in enterprises, which ensures an increase in the quality of products.

Claims (3)

1. Chirkin V. S. Thermal Conductivity of Industrial Materials, Mashgiz, M., 1962, p. OF. 2.Gerashchenko OA. Fundamentals of Thermometry, Naukova Dumka, 1971, p. 154-156. 3. US patent number 3552185, cl. 73-15, 1971 (prototype). u ////// // m 7 ////////// 7 //////// A I. “,}, .. 1..,. . . . Lx .. ..: .. / ;. ; -. , -. ,, ...-.- f.-.-.,: ..., -,. х -:., -., .. ....... v;.: / .: -I ..... 0-C Wl. iv.2 L