SU1490457A1 - Method for monitoring stressed-deformed state of metal parts - Google Patents

Abstract

The invention relates to non-destructive methods for monitoring the stress-strain state of a material and can be used to control metal parts that are affected by cyclically varying loads. The purpose of the invention is to improve the accuracy of determining changes of the stress-strain state accumulated over the loading cycle. This is achieved by detecting in each cycle the moment when the load reaches the same stably reproducible level and by measuring the electrical resistance at these times. The load can be mechanical, thermal or combined. A consistently reproducible level of load can be observed, for example, on an unloaded or thermostatted part. Accuracy is improved by eliminating the variation in electrical resistance caused by a change in the current load from cycle to cycle. The method allows for one cycle of loading to predict the state of the part after several cycles.

Description

The invention relates to the non-destructive testing methods of stress-induced depressions and the state of the material and can be used to control mechanical parts affected by cyclically varying loads.

The aim of the invention is to improve the accuracy of determining changes in the stress-strain state accumulated over the loading cycle, which is achieved by detecting in each cycle the moment when the load reaches the same stably reproducible level and measuring electrical resistance at these times.

The method is described as follows.

An input of an electrical resistance meter, such as a digital ohmmeter, is connected to selected points on the surface of the part. Cyclically varying loads affect the part, and a consistently reproducible level of load is detected, repeated in each cycle, for example, as indicated by the control device of the load driver or by the state of the driver. Load can be

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both mechanical and Teshyuva or combined. A consistently reproducible level of mechanical stress can be observed with the exciter off, i.e. in conditions when the part is unloaded. Stable reproducibility The 1st heat load level can be observed when the heater is turned off after the part has returned to the same temperature. It is also possible for the part to be loaded with some kind of high one (11nl exciter, for example, the application of a constant load or placing the part in a thermostat.

In each cycle in achieving the load of the same stably reproducible level, the electrical resistance of the part is measured. According to these data, the magnitudes of changes in the stress-strain state of the part, accumulated over 1 workload cycle of the part, for example, in fractions of the maximum-strain change in the cycle, are determined.

The method allows to increase the accuracy of determining changes in the stress-strain state.

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parts by eliminating the variation in electrical resistance caused by changes in the current load from cycle to cycle. This will allow one loading cycle to more accurately predict the state of the part after a specified number of cycles.

Claims (1)

Invention Formula The method of control of the stress-strain state of metal parts, which consists in loading the part of a cyclically varying load, and measuring the electrical resistance between two points of the part, from which the stress-strain state of the material is determined, characterized in that in order to improve the accuracy of determining the changes in the stress-strain state accumulated over the loading cycle, each cycle reveals the moment the load reaches the same stable reproducible th layer and electrical resistance measurement was carried out at these times.