EA028027B1 - Method for quality control of long-length products made of a shape memory alloy - Google Patents

Abstract

Use: for determining homogeneity of a long-length material in products, primarily wire-type products, made of a shape memory alloy. Essence of the invention: a method for detection of non-homogeneous sections in long-length products made of a shape memory alloy can be implemented by means of the device shown in the drawing. The method comprises feeding of a product 6 through a device 4 where it is subjected to cooling to a temperature lower that the temperature of material transition to the martensite state, with measurement of thermo-EMF of the wire. From thermo-EMF variation, areas of the product are detected where phase transition zone does not comply with the predetermined one, therefore, such areas differ in physical properties and must be rejected. The technical result: expansion of the field of application of existing analogues.

Description

The method relates to the field of non-destructive testing, in particular to methods and devices for determining the quality of extended products, for example, the homogeneity of the physical and mechanical properties of a material, mainly from an alloy with shape memory.

Known closest in technical essence to the invention is a method for continuous quality control of an alloy wire with shape memory [1], which involves feeding the wire through a thermostatic chamber with a constant temperature control. In a thermostat chamber, an extended product is heated above the temperature of the transition of the material to a high-temperature austenitic state (A _k ), at the same time, the deviation of the thermoEMF is measured and the sections of the product in which the phase transition region characterizing the uniformity of material properties are not determined are determined by the changes in thermoEMF.

This method is intended for continuous quality control of extended products, mainly alloy wire with shape memory, and provides 100% control for compliance with the required thermomechanical characteristics.

A significant disadvantage of this method is that, due to the peculiarities of the implementation methods, namely heating an extended product above the temperature of the end of the reverse phase transition (T> A _K ) in a thermostatic chamber, it is not possible to determine the uniformity of properties in products that are initially in the austenitic state .

The technical problem to which the invention is directed is to create a method that allows you to expand the scope of this method for determining heterogeneous sections of an extended alloy product with shape memory.

The task is achieved in that in order to control the quality of the alloy product with a shape memory, mainly of the wire type, which is initially in the high-temperature austenitic state, the product is fed through a device in which it is cooled below the transition temperature of the material to a low-temperature martensitic state (T <M _K ), with the measurement of changes in thermopower at specified points of the specified device and using them to determine the quality of the product. In accordance with the invention, the product is supplied through a thermostat chamber, with a temperature below the transition of the material to the martensitic state (T <M _K ), the deviation of the thermoEMF arising in the product during unsteady cooling is measured, and the recorded changes in the thermoEMF are used to determine areas of the product in which homogeneity of material properties, does not match the specified.

In this case, the determination of heterogeneous sections of an extended alloy product with a shape memory that is initially in a high-temperature austenitic state provides an extension of the scope, which indicates the achievement of the claimed technical result, as well as the signs that distinguish the claimed method from the prototype.

The inventive method can be carried out by means of the device shown in the drawing. A memory alloy product 6 is wound from the supply unit 1 to the receiving unit 7, passes through a thermostatic chamber 4, in which it is cooled below the temperature of the transition of the material to a low-temperature martensitic state (T <M _K ), and in the area before it enters and exits the thermostat chamber by means of the roller contacts 2 and 5 of the voltmeter 3 continuously measure the thermoEMF arising from unsteady cooling. The product is cooled in such a way that in the cooling zone its temperature is lower than the temperature of the end of the direct phase transition (T <MK), and in places where the thermopower is directly measured, the temperature of the product is higher than the temperature of the end of the reverse phase transition (T> A _K ), for example room. By changing the thermoEMF, product sections are determined in which the phase transition region does not correspond to the specified one, which means that these areas differ in physical properties and are subject to rejection.

Experimental verification confirmed that the inventive method in comparison with the prototype allows you to expand the scope of its application.

The proposed technical solution can be used to control not only alloy products with shape memory, but also other alloys. It is only necessary that a direct phase (allotropic) transformation takes place in the cooling zone.

Sources of information: 1.РБ 19012, О 01Ν 25/16, 11/28/2011.

Claims (2)

CLAIM 1. The method of quality control of extended products from an alloy with a shape memory, mainly of a wire type, in which the extended product 6 is supplied to a thermostat chamber 4, in which it is cooled below the transition temperature of the extended product material into a low-temperature martensitic state, thermoEMF is continuously measured at the site before entering and exiting the product from the thermostat chamber, sections of the extended product are revealed in which the value of the measured thermoEMF characterizing uniformity is material in an extended article, does not correspond to a predetermined. 2. The method according to claim 1, characterized in that the resistance values are fixed.