Production of filler rods for repair welding of ML12 (ZK51) magnesium alloy castings-Reference-Cited by-同舟云学术

Production of filler rods for repair welding of ML12 (ZK51) magnesium alloy castings

Published:2022-06-15 Issue:3 Volume: Page:47-56
ISSN:2412-8783
Container-title:Izvestiya Vuzov. Tsvetnaya Metallurgiya (Universities' Proceedings Non-Ferrous Metallurgy)
language:
Short-container-title:Izv.VUZ. Tsvet. Met.

Author:

Koltygin A. V.¹,Bazhenov V. E.¹,Tavolzhanskii S. A.¹,Matveev S. V.¹,Plisetskaya I. V.¹,Belov M. V.¹,Samokhin A. V.¹,Belov V. D.¹

Affiliation:

1. National University of Science and Technology «MISIS» (NUST «MISIS»)

Abstract

In magnesium alloys castings, the casting defects such as shrinkage porosity are often occur. Such defects can be suppressed by repair welding or surfacing using a special filler rod. Unfortunately, in Russia, the low amount of filler rod is consumed. Therefore, native enterprises do not manufacture it, limiting themselves to imports or homemade low-quality substitutes. Nevertheless, there is a need for filler rod, and recently it has become unprofitable to replace them with imported materials due to a significantly increased price. Therefore, there is a need to study the technology of its production to replace imported filler rod with native material. Magnesium alloys based on the Mg–Zn–Zr (La, Nd) system: SV1, SV122, and ML12 (ZK51) that used as a filler rod for repair welding of ZK51 alloy castings were studied in this work. The samples were obtained by permanent mold casting into aluminum molds followed by hot extrusion into a filler rod with a diameter of 4 mm. It was shown that all the investigated alloys could be obtained in the form of a rod with a diameter of 4 mm. Therefore, the investigated rod samples from the SV122 alloy were used as filler material for repair welding of ZK51 magnesium alloy castings. The weld seam in the T1 condition has an ultimate tensile strength (UTS) about 80 % of the UTS of the casting material.

Publisher

National University of Science and Technology MISiS

Subject

Metals and Alloys

Reference23 articles.

1. Liu L. Welding and joining of magnesium alloys. 1-st ed. Cambridge: Woodhead Publishing Limited, 2010. DOI: 10.1533/9780857090423.

2. Bettles C., Barnett M. Advances in wrought magnesium alloys. Fundamentals of processing, properties and applications. 1-st ed. Cambridge: Woodhead Publishing Limited, 2012.

3. Lobanov L. M. Issledovanie ostatochnykh napryazhenii v svarnykh soedineniyakh zharoprochnogo magnievogo splava ML 10 posle elektrodinamicheskoi obrabotki / L. M. Lobanov [i dr.] // Probl. prochnosti. – 2014. – No. 6. – S. 33—41 / Lobanov L. M., Pashchin N. A., Savitskii V. V., Mikhodui O. L. Investigation of residual stresses in welded joints of heatresistant magnesium alloy ML10 after electrodynamic treatment. Problemy prochnosti. 2014. No. 6. P. 33—41 (In Russ.).

4. Shalomeev V. A. Uluchshenie makro- i mikrostruktury aviatsionnogo lit'ya iz magnievykh splavov / V. A. Shalomeev // Vestn. dvigatelestroeniya. – 2013. – No. 1. – S. 127—132 / Shalomeev V. A. Improvement of the macro- and microstructure of aviation castings from magnesium alloys. Vestnik dvigatelestroeniya. 2013. No. 1. P. 127—132 (In Russ.).

5. Shalomeev V. A. Zavarka poverkhnostnykh defektov lit'ya iz splava ML-10 skandiisoderzhashchim materialom / V. A. Shalomeev [i dr.] // Avtom. svarka. – 2009. – No. 3. – S. 34—38 / Shalomeev V. A., Tsivirko E. I., Petrik I. A., Lukinov V. V. Welding of surface defects in casting from ML-10 alloy with scandium-containing material. Avtomaticheskaya svarka. 2009. No. 3. P. 34—38 (In Russ.).

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