SU934255A1 - Method of determining thermal diffusivity of material - Google Patents

Description

one

I The invention relates to thermometry and can be used in research and control of thermal processes in metallurgy, energy and other sectors of the national economy.

The known method for determining the coefficient of thermal diffusivity consists in applying a heat pulse to the surface of the material under study, measuring the temperature and determining the coefficient of thermal diffusivity by calculation by til.

However, the known method does not have the required measurement languor due to the error that occurs when fixing the time points of the heat pulse supply.

The closest in technical essence to the present invention is a method for determining the coefficient of thermal diffusivity of a material, consisting in applying a heat pulse to the surface of the material under study, measuring the temperature at its two points and determining the coefficient of thermal diffusivity by calculation 2.

However, the known method does not have the required measurement accuracy due to the instrumental error due to the use of a complex experimental bench and an error in determining the duration of the thermal pulse.

15 The purpose of the invention is to increase the measurement accuracy.

Claims (1)

The goal is achieved by the method of measuring .jjj the temperature of the material at an additional point located between the main ones, calculating the derivatives of the temperature at the basic points, and the coefficient of thermal diffusivity is determined by the formula b (-b „P), b n ..,) -4 (n De tp, H / n. tfa temperature of the material under study 8 several points with coordinates o - b / n - b (at the main and additional); derived from the temperature at the main points; thickness of the material under study; the number characterizing the place of installation of the additional rmopar pairs The drawing shows the scheme for implementing the proposed method.The diagram shows the plates of the material under study, thermocouples, l (douww. VJ neiicjjnajici, ic: pni i, installed in the plate on the path of the heat pulse, plate thickness b, O - b / n - b - ycja coordinates of the working junctions of thermocouples The determination of the thermal diffusivity by the proposed method is carried out as follows: Three thermocouples with known coordinates relative to the surface on which the heat is applied are caulked into the sample under test. e, with the plate thickness equal to b, the coordinates of the thermocouple installation O - b / n - b, where n is any arbitrary number characterizing the accuracy of the thermocouple installation at the point b / n (from the point of view of accuracy after the calculations, it is desirable to have n 2). At the moment when applying step thermal loading and the surface of the test sample, the current temperature value is measured at three points O - b / n - b, derived from temperatures at points O, b and, the sign of coordinates of temperature measurement at additional point b Ip, characterized by the number n, the coefficient of thermal diffusivity is determined by the formula: test temperature tp, t ,, t of the blown material at several points with coordinates O - b / n - b (in the main and additional); derivatives of temperature at basic points; thickness of the studied material; the number characterizing the installation location of the additional thermocouple. In determining the thermal diffusivity of the proposed method, the measurement error is 0.001, which is much more accurate than the known one. . . ..- ... ...,., -, .- - ... .. the way. In addition, in the proposed method, when applying a step heat load to a sample, the need for special heat engineering stands and the heat pulse delivery time is not limited, and readings can be taken over the entire temperature measurement range, this simplifies the process of determining the thermal diffusivity, expands the range of research . Improving the accuracy of measuring the thermal diffusivity of a material allows one to increase the level of control over a number of technological processes and, ultimately, the quality of products. Claim Method The method for determining the coefficient of thermal diffusivity of a material consists in applying a heat pulse to the surface of the material under investigation, then measuring the temperature at its two points and determining the thermal diffusivity by calculation, characterized in that, in order to improve the measurement accuracy, the temperature of the material is measured at an additional point located between the main ones, the derivatives of the temperature at the HOSE points are calculated, and the thermal diffusivity is determined from rmule ,,), .. Ч-- .--), “where tp, tfe is the temperature of the material under study at several points with coordinates O – b / n – b (in to main and additional) derivatives of temperature i in the main points; b is the thickness of the studied material; n is the number characterizing the installation location of the additional thermocouple. Sources of information, ntye taken into account during the examination 1. USSR author's certificate 58665, to. G 01 K 17/00, 1967.. Chirkin B.C. Thermal conductivity of industrial materials. M., Machinery, 1962, p. 150 (prototype).