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Strength of Materials

Erschienen in:

26.11.2020

Effect of Pulse Current on Residual Stresses in AMg6 Aluminum Alloy in Electrodynamic Treatment

verfasst von: Yu. M. Sydorenko, M. O. Pashchyn, O. L. Mykhodui, Yu. A. Khokhlova, M. A. Khokhlov

Erschienen in: Strength of Materials | Ausgabe 5/2020

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Abstract

The development of energy-efficient methods of controlling the stress state of metallic materials and welded joints is topical for modern production. One of such methods is electrodynamic treatment (EDT). It is based on the passage of electric current pulses (ECP) through the metal, time-synchronized with an impact load initiated by electrodynamic forces. In this case, an electrodynamic deformation process and a process of formation of elastic strain waves occur simultaneously in the material being treated; they are defined as “electrodynamic impact”, the result of which is a local stress relaxation in the metal. The developed mathematical model of the formation of stress and strain fields during EDT, which is based on the motion of an elastoplastic medium, does not take into account the effect of ECPs on dynamic relaxation processes. A computational and experimental assessment of the effect of ECPs, which is based on the experimental assessment of the stress state and microindentation of AMg6 aluminum alloy plates after EDT without and with the passage of ECPs through the metal being treated, has been performed by the mathematical modeling of the EDT process taking into account microindentation results. The passage of ECPs contributes to an increase in tensile plastic strains and hence to an increase in residual compressive stresses (provided that the specimens to be treated are rigidly fixed). The reliability of the procedure has been confirmed by the results of evaluating the distribution of residual welding stresses in AMg6 alloy butt joints after EDT.

Vorheriger Artikel The Range of Use of the Critical Distance Concept to Predict the Endurance Limit in the Presence of Stress Raisers

Nächster Artikel Thermostressed State of a Nozzle Vane from Max Phase Ceramics

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L. M. Lobanov, I. P. Kondratenko, A. V. Zhiltsov, et al., “Development of post-weld electrodynamic treatment using electric current pulses for control of stress-strain states and improvement of life of welded structures,” Mater. Perform. Charact., 7, No. 4, 941–945 (2018).

G. Stepanov, A. Babutski, I. Mameev, et al., “Redistribution of residual welding stresses in pulsed electromagnetic treatment,” Strength Mater., 43, No. 3, 326–331 (2011).CrossRef

V. A. Strizhalo, L. S. Novogrudskii, and E. V. Vorob’ev, Strength of Materials at Cryogenic Temperatures with Allowance for the Action of Electromagnetic Fields [in Russian], Pisarenko Institute of Problems of Strength, National Academy of Sciences of Ukraine, Kiev (2008).

L. M. Lobanov, M. O. Pashchyn, O. L. Mykhodui, and Yu. M. Sydorenko, “Effect of the indenting electrode impact on the stress-strain state of an AMg6 alloy on electrodynamic treatment,” Strength Mater., 49, No. 3, 369–380 (2017).CrossRef

L. M. Lobanov, N. A. Pashchin, A. N. Timoshenko, et al., “Effect of the electrodynamic treatment on the life of AMg6 aluminum alloy weld joints,” Strength Mater., 49, No. 2, 234–238 (2017).CrossRef

Yu. A. Khokhlova, I. M. Klochkov, A. A. Grinyuk, and M. A. Khokhlov, “Verification of Young modulus values obtained with a Mikron-gamma microprobe system,” Nerazrush. Kontrol Tekhn. Diagn., No. 1, 30–32 (2009).

L. M. Lobanov, I. P. Kondratenko, A. V. Zhil’tsov, et al., “Nonstationary electrophysical processes in systems for the reduction of residual stresses in welded joints,” Tekhn. Élektrodyn., No. 6, 10–19 (2016).CrossRef

L. M. Lobanov, V. A. Pivtorak, V. V. Savitskii, and G. I. Tkachuk, “A procedure for determining residual stresses in welded joints and structural elements using electronic speckle interferometry,” Avtomat. Svarka, No. 1, 10–13 (2006).

ISO 14577-1:2015. Metallic Materials – Instrumented Indentation Test for Hardness and Materials Parameters – Part 1: Test Method.

10.

www.ansys.com.

11.

K. M. Rudakov, Numerical Analysis Methods in the Dynamics and Strength of Structures [in Ukrainian], NTUU “KPI”, Kiev (2007).

12.

V. V. Selivanov (Ed.), A. V. Babkin, V. I. Kolpakov, et al., Numerical Methods in Explosion and Impact Physics Problems [in Russian], Vol. 3, Bauman State Technical University, Moscow (2000).

13.

K. L. Johnson, Contact Mechanics, Cambridge University Press (1985). 737

Titel: Effect of Pulse Current on Residual Stresses in AMg6 Aluminum Alloy in Electrodynamic Treatment
verfasst von: Yu. M. Sydorenko
M. O. Pashchyn
O. L. Mykhodui
Yu. A. Khokhlova
M. A. Khokhlov
Publikationsdatum: 26.11.2020
Verlag: Springer US
Erschienen in: Strength of Materials / Ausgabe 5/2020
Print ISSN: 0039-2316
Elektronische ISSN: 1573-9325
DOI: https://doi.org/10.1007/s11223-020-00226-2

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