SU1163235A1 - Method of determining thermal physical characteristics of materials - Google Patents

Abstract

DEVICE FOR DETERMINING TESH10 PHYSICAL CHARACTERISTICS OF MATE: RIALOV, containing a serially connected mobile platform and platform drive, as well as a concentrated source of thermal energy, two radiometers mounted on a mobile Platform reference sample, a recorder, a drive control unit, and radiometers connected to the corresponding recorder inputs, different the fact that, in order to expand the functionality of the device by simultaneously determining the coefficients of thermal conductivity and emperaturoprovodnosti in nbgo additionally introduced two radiometer connected to respective inputs of the registrar (C L and the second reference sample, zakreplennsh on the movable platform.

Description

 1 The invention relates to a measuring technique and can be used in determining the thermophysical characteristics of materials, including rocks. A device for determining the thermophysical characteristics of materials is known, comprising a serially connected mobile platform and a platform drive, a concentrated source of thermal energy, a radiometer and a recorder connected to a CiJ radio meter. The disadvantages of this device are the duration from; Jeeves, due to the need to move the platform twice with a series of samples installed on it relative to the radiometer (first with the source of thermal energy turned off and then turned on, as well as low accuracy due to the absence of reference samples in the device known thermophysical characteristics. Closest to the proposed technical essence is a device for determining the thermal conductivity of materials containing successively a mobile platform and a platform drive, as well as a concentrated source of thermal energy, two radiometers mounted on a mobile platform, a reference sample, a recorder and a drive control unit, the radiometers connected to the corresponding inputs of the L2J recorder. A disadvantage of the known device is a narrow area of its functionality, It does not allow the complex determination of the thermophysical characteristics of materials. The purpose of the invention is to expand the functionality of the device by simultaneously determining the coefficients of thermal conductivity and thermal diffusivity. The goal is achieved by the fact that the device for determining the thermophysical characteristics of materials, containing a series-connected moving platform and platform drive, as well as a focused source of thermal energy, two radiometers mounted on a moving platform, a reference sample of 5 samples, a recorder and a drive control unit, the radiometers connected to the corresponding inputs of the recorder, additionally introduced two radiometers connected to the corresponding inputs of the recorder, and the second reference sample Aztec, fixed on a subspecies platform. The drawing shows a functional diagram of the device. The device contains a mobile / platform 1 with reference samples 2 and 3 fixed on it with known thermal characteristics, a platform drive 4, a concentrated source of heat 5, radiometers 6-9, recorder 10 and drive control unit 11. The device works as follows. Test samples 12-1, ..., 12-p are placed on platform 1 in series with reference samples 2 and 3. The reference and test samples are set so that their working surfaces are perpendicular to the optical axis of the energy source 5 and radiometers 6-9 . Source 5 and radiometers 6 and 7 are set so that the heating of the reference and test samples and the recording of the temperature of their surfaces occur along one straight line. Radiometers 8 and 9 are positioned so that the temperature of the surfaces of the samples and standards is recorded along a straight, parallel heating line for the bodies under study. Upon the command of the Start arriving at the drive control unit 11, the drive 4 moves platform 1 with samples 12 and standards 2 and 3 relative to the source 5 and radio. meters 6 - 9. With a uniform movement of platform 1, radiometers 6 and 8 successively record the temperature of the surfaces of the unheated reference sample 2, the samples 12 and the reference sample 3, and radiometers 7 and 9 record the temperature of the surfaces of the bodies under study. after they are heated by the source 5 of energy. After determining the excess temperatures of the surfaces of each of the samples and standards on the heating line and parallel to it with respect to the range of readings of radiometers 6, 7 and 8, respectively, the device allows determining the thermal conductivity and thermal diffusivity of each of the samples by the following formulas: where Л (, 5р , Ы - thermal conductivity, respectively, of the sample under study, reference 2 and reference 3–, 5 (oCr eGg — thermal diffusivity, respectively, of the test sample, reference 2 and reference 3; ®1о5р1 1ЭТ21 0 - excess surface temperatures with Respectively, the sample under study, reference 2 and reference 3 on the heating line of their source of energy; 2oBr ,,., “are the excess surface temperatures of the sample under investigation, reference 2 and reference 3 on a straight, parallel heating line. The proposed device is compared with the known allows you to simultaneously determine the thermal conductivity and thermal diffusivity of the samples under study with a capacity of about 600 samples per shift.

Claims (1)

DEVICE FOR DETERMINING MATE THERMOPHYSICAL CHARACTERISTICS RIALOV, containing in series a movable platform and a platform drive, as well as a concentrated source of thermal energy, two radiometers mounted on a movable Platform, a reference sample, a recorder, a drive control unit, the radiometers being connected to the corresponding inputs of the recorder, characterized in that, in order to expand functional capabilities of the device by simultaneously determining the coefficients of thermal conductivity and thermal diffusivity, two radiometers are additionally introduced into it, according to connected to the corresponding inputs of the recorder, and a second reference sample mounted on a movable platform. SU „., 1163235 1 1163235