DETERMINATION OF THE COMPRESSIVE STRESS OF A RAIL USING THE EFFECT OF ACOUSTOELASTICITY AND STRAIN GAUGE-Reference-Cited by-同舟云学术

DETERMINATION OF THE COMPRESSIVE STRESS OF A RAIL USING THE EFFECT OF ACOUSTOELASTICITY AND STRAIN GAUGE

Published:2021-07 Issue:277 Volume: Page:14-23
ISSN:0201-7032
Container-title:Kontrol'. Diagnostika
language:ru
Short-container-title:td

Author:

Stepanova L. N.,Kurbatov A. N.,Kabanov S. I.,Tenitilov E. S.,Kojemyakin V. L.,Chernova V. V.

Abstract

A method for monitoring the compression stress in a rail and a sample made of steel 20 using the effect of acoustoelasticity and strain gauge has been developed. Wire load cells were pasted to the opposite sides of the rail and the sample. Measurements, recording and processing of strain gauge information was carried out by a certified microprocessor strain gauge system MMTS-64.01 with accuracy class 0.2. To control the compression stress, the developed microprocessor-based ultrasonic system “Akusto-1” was used, which operates on the basis of the acoustoelasticity effect. The angle of input of ultrasonic vibrations, equal to 18°. This allowed to excite longitudinal, transverse and transformed waves in the object. Compressive stresses in the rail and steel sample were carried out by 250-ton loading machine “PSY-250”. Longitudinal and transformed ultrasonic waves were used to control compressive stresses. A comparative analysis of the experimental and calculated dependences of compressive stresses on the load obtained by acoustic, tensometric and computational methods is performed. The reliability of the experimental and calculated results was controlled by a certified microprocessor strain gauge system MMTS-64.01.

Publisher

Izdatel'skii dom Spektr, LLC

Subject

General Medicine

Reference17 articles.

1. Murav'ev V. V., Volkova L. V., Platunov A. V., Bayteryakov A. V. (2015). Acoustic methods for assessing the structural and stress-strain state of rails. Welding and diagnostics: collection of reports of the international forum, pp. 285 – 290. Ekaterinburg: UrFU. [in Russian language]

2. Murav'ev V. V., Tapkov K. A. (2017). Assessment of the stress-strain state of rails during manufacturing. Pribory i metody izmereniy, Vol. 8, (3), pp. 263 – 270. [in Russian language]

3. Bobrenko V. M., Brandis M. P., Bobrov V. T., Tarabrin V. F. (2018). Control of thermal stresses in railway rails by the method of acoustic tensometry. V mire NK, Vol. 21, (3), pp. 73 – 76. [in Russian language]

4. Bobrenko V. M., Bobrov V. T., Gul'shin A. V. (2014). Analysis of the loading of detachable joints by the acoustic method. Zavodskaya laboratoriya. Diagnostika materialov, (7), pp. 60 – 66. [in Russian language]

5. Murav’ev V. V., Volkova L. V., Platunov A. V., Kulikov V. A. (2016). An electromagnetic-acoustic method for studying stress-strain states of rails. Russian Journal of Nondestructive Testing, Vol. 52, (7), pp. 370 – 376.

Cited by 3 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Possibilities of Manual Eddy Current Testing for Depth Gaging of Contact-Fatigue Cracks on Rail Rolling Surface;Russian Journal of Nondestructive Testing;2023-04

2. Acoustoelasticity Study of the Longitudinal Stresses in Railroad Rails;Russian Metallurgy (Metally);2023-04

3. STAND FOR DETERMINING THE DEPENDENCE OF THE ROD WAVE VELOCITY ON THE TEMPERATURE IN METAL BARS;Kontrol'. Diagnostika;2023-03