SU1186944A1 - Method of determining temperature stresses - Google Patents

Abstract

A METHOD FOR DETERMINING TEMPERATURE VOLTAGES, which means that the thermomechanical characteristics of structural materials are determined and thermal deformations are determined by them, as well as by causing them stress, in order to improve the accuracy, thermomechanical characteristics are determined on samples subjected to stabilizing annealing, to determine the mode in which the samples excite longitudinal oscillations at the natural frequency and measure this frequency before and after annealing, and for the desired mode at The one that gives the maximum change of this frequency at the minimum temperature, and with the surface treated by cutting in a mode that creates mutually compensating structural defects, is determined to determine which longitudinal oscillations are excited at the natural frequency in the samples and this frequency is measured before and after mechanical W processing , and for the desired mode they take the one that gives the minimum change of this frequency.

Description

111 The invention relates to a measurement technique and may be used to determine temperature stresses in various structural materials, parts, and also in the combination of materials with dramatically different physical properties. The aim of the invention is to improve the accuracy of determining temperature "aprons in various products ...,.... . The method is as follows. YL i V Thermomechanical characteristics of materials on samples subjected to stabilizing annealing to determine the mode of which in the samples are excited by longitudinal oscillations at the natural frequency are measured, and this frequency is measured before and after annealing, and the maximum change of this frequencies at the minimum temperature, n with the surface machined at the mode that creates mutually compensated structural defects, for the determination of which longitudinal oscillations are excited in the samples and at the natural frequency and the frequency of the TLS is measured before and after machining, and for receiving a desired mode, which gives minimum variation of this frequency. The linear linear temperature coefficients determined in these modes, the modulus of elasticity, the yield strength, and the increment of temperature stresses are used to determine the equivalent temperature stresses in a free body. Using the proposed method for determining temperature stresses allows an increase in the accuracy of determining the temperature coefficient | the linear expansion patient, and hence the magnitude of the temperature stresses.

Claims (1)

METHOD FOR DETERMINING TEMPERATURE STRESSES, which consists in determining the thermomechanical characteristics of structural materials * * · and determining the temperature deformations and stresses that cause them, characterized in that, in order to improve accuracy, thermomechanical characteristics are determined on samples subjected to stabilizing annealing, to determine the mode of which longitudinal vibrations at the natural frequency are excited in the samples and measure this frequency before and after annealing, and for the desired mode I take t such that it gives a maximum change in this frequency at a minimum temperature, and with a surface machined by cutting in a mode that creates mutually compensating structural defects, to determine which longitudinal vibrations are excited at the natural frequency in the samples and measure this (8 frequency before and after machining , and for the desired mode, take one that gives a minimum change in this frequency.