RU2149395C1 - Process of acoustic emission determination of mechanical properties of metal in articles - Google Patents

Abstract

FIELD: study of materials. SUBSTANCE: proposed invention includes measurement of parameters of acoustic emission in process of deformation of article and sample from metal identical to that of article. Sample is subjected to static deformation. Dependencies "stress-acoustic emission parameters" and "deformation-acoustic emission parameters" are being established till sample is broken down. Article is deformed by impression of indenter. Plasto-elastic deformation in zone of impression is measured and dependence "impression depth-acoustic emission parameters" is established. Then dependence "stress-deformation" for metal of article is determined with use of dependencies obtained with sample and article. Number of pulses acoustic emission, amplitude of pulses of acoustic emission, number of pulses of acoustic emission per time unit and summary number of pulses of acoustic emission are employed as parameters of acoustic emission. EFFECT: increased informativity of process thanks to obtainment of dependence "stress-deformation" for metal of article, improved control over processes of plastic deformation. 1 cl

Description

 The invention relates to test equipment and can be used for technical testing of products.

 A known method of acoustic emission determination of the characteristics of the mechanical properties of metal in products, including measuring the parameters of acoustic emission in the process of deformation of the product and the metal sample, is adequate to the metal of the product, moreover, the product and the sample are deformed by indenting, and the number of signals is measured as the parameter of acoustic emission acoustic emission, which is measured for the product and the sample, compare them with each other and by the resulting ratio judge the properties of lia (SU 1786423 A1, 01/07/93). The disadvantage of this method is its lack of information.

 The objective of the invention is to increase the information content of the method by providing a relationship of "stress-strain" for the metal product, as well as providing control of the processes of plastic deformation.

 The problem is solved due to the fact that in the method of acoustic emission determination of the characteristics of the mechanical properties of metal in products, including the measurement of acoustic emission parameters in the process of deformation of a product and a sample of metal, adequate to the metal of the product, and the product is deformed by indentation, the sample is subjected to static and cyclic deformation, establish the relationship "stress - parameters of acoustic emission", "deformation - parameters of acoustic emi "and" the number of loading cycles - acoustic emission parameters "up to the destruction of the sample, and during indentation of the indenter into the product, the elastoplastic deformation in the imprint zone is measured and the dependencies" indentation depth - acoustic emission parameters "are established, and then, using the dependences obtained on specimen and product, establish the relationship "stress - strain" for the metal product. Moreover, it is advisable to measure the number of acoustic emission pulses, the amplitude of acoustic emission pulses, the number of acoustic emission pulses per unit time and the total number of acoustic emission pulses as parameters of acoustic emission.

 The method is as follows. A sample is made from metal adequate to the metal of the product, it is subjected to static and / or cyclic deformation while monitoring and measuring acoustic emission signals of the metal of the working part of the sample, as well as measuring the deformation of the working part, for example, using an extensometer. The dependences “stress-parameters of acoustic emission” and “deformation - parameters of acoustic emission” are established up to the destruction of the sample. Then, the indenter is pressed into the product and at the same time the elastic-plastic deformation in the imprint zone is measured and the dependences "indentation depth - acoustic emission parameters" are established. After that, using the dependences "stress - acoustic emission parameters" and "deformation - acoustic emission parameters" obtained on the sample, and the dependences "indentation depth - acoustic emission parameters" obtained on the product, the stress-strain relationship for the product metal is established .

 The proposed method allows to simplify and improve the accuracy of building a diagram of the deformation of the metal product in the controlled area and at the same time provides the opportunity to analyze various mechanisms of plastic deformation and fracture.

Claims (2)

 1. The method of acoustic emission determination of the characteristics of the mechanical properties of the metal in the products, including measuring the parameters of acoustic emission in the process of deformation of the product and the metal sample, adequate to the metal of the product, and the deformation of the product is carried out by pressing an indenter, characterized in that the sample is subjected to static deformation, set the dependences "stress - acoustic emission parameters" and "deformation - acoustic emission parameters" up to the destruction of the sample, and in otsesse indentation in the product measured elastoplastic deformation in the print area and set the dependence "indentation depth - acoustic emission parameters" and then using the relationships obtained in the sample and the item is set dependency "stress - strain" for metal products.  2. The method according to claim 1, characterized in that as the parameters of acoustic emission measure the number of pulses of acoustic emission, the amplitude of the pulses of acoustic emission, the number of pulses of acoustic emission per unit time and the total number of pulses of acoustic emission.