Influence of Laser Welding Modes along a Curved Path on the Mechanical Properties and Heterogeneity of the Microstructure of 316L Steel Plates.

Anufriyev, Dmitriy Andreevich; Protsenko, Vladimir Georgievich; Larin, Maksim Vasilievich; Kuznetsov, Mikhail Valerievich; Mukhin, Aleksey Alekseevich; Sviridenko, Maksim Nikolaevich; Kuryntsev, Sergey Vyacheslavovich; Grinin, Oleg Ivanovich; Pevzner, Yakov Borisovich

Anufriyev, Dmitriy Andreevich; Protsenko, Vladimir Georgievich; Larin, Maksim Vasilievich; Kuznetsov, Mikhail Valerievich; Mukhin, Aleksey Alekseevich; Sviridenko, Maksim Nikolaevich; Kuryntsev, Sergey Vyacheslavovich; Grinin, Oleg Ivanovich; Pevzner, Yakov Borisovich.

Afiliação

Anufriyev DA; Institute of Machinery, Materials, and Transport, Peter the Great St. Petersburg Polytechnic University, Polytechnicheskaya, 29, Saint-Petersburg 195251, Russia.
Protsenko VG; Institute of Machinery, Materials, and Transport, Peter the Great St. Petersburg Polytechnic University, Polytechnicheskaya, 29, Saint-Petersburg 195251, Russia.
Larin MV; Institute of Machinery, Materials, and Transport, Peter the Great St. Petersburg Polytechnic University, Polytechnicheskaya, 29, Saint-Petersburg 195251, Russia.
Kuznetsov MV; Institute of Machinery, Materials, and Transport, Peter the Great St. Petersburg Polytechnic University, Polytechnicheskaya, 29, Saint-Petersburg 195251, Russia.
Mukhin AA; N.A. Dollezhal Research and Development Institute of Power Engineering, Malaya Krasnoselskaya Str. 2/8, Moscow 107140, Russia.
Sviridenko MN; N.A. Dollezhal Research and Development Institute of Power Engineering, Malaya Krasnoselskaya Str. 2/8, Moscow 107140, Russia.
Kuryntsev SV; Department of Materials Science and Welding, Kazan National Research Technical University Named after A.N. Tupolev-KAI (KNRTU-KAI), 10, K.Marx St., Kazan 420111, Russia.
Grinin OI; Institute of Laser and Welding Technologies, Saint Petersburg State Marine Technical University, Lotsmanskaya Str. 3, Saint Petersburg 190121, Russia.
Pevzner YB; Institute of Laser and Welding Technologies, Saint Petersburg State Marine Technical University, Lotsmanskaya Str. 3, Saint Petersburg 190121, Russia.

Materials (Basel) ; 17(15)2024 Jul 29.

Article em En | MEDLINE | ID: mdl-39124408

ABSTRACT

ABSTRACT

The results of experimental studies in the manufacture of components of the supporting structure of the first wall panel, carried out as part of the manufacture of a model of the International Thermonuclear Experimental Reactor (ITER) using laser welding technology, are presented. The influence of laser welding modes on the quality of formation, microstructure characteristics, and mechanical properties of a welded joint made of 10 mm thick 316L steel was studied. A coaxial nozzle was designed and manufactured to protect the weld pool with a curved trajectory. The mechanical properties of the welded joint are 98-100% that of the base metal, and the microhardness of the welded joint and base metal is in the range of 180-230 HV. It was established that the lower part of the weld metal on the fusion line has transcrystalline grains and differs in Î´-ferrite content; due to a high welding speed, the ratio of the depth to the width of the welding seam is 14 times. The width of the rectilinear part of the seam is 15-20% larger than its curved part.

Palavras-chave

316L stainless steel; curved laser welding; high-speed welding; mechanical properties; microstructure; transcrystalline grains

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Revista: Materials (Basel) Ano de publicação: 2024 Tipo de documento: Article País de afiliação: Federação Russa

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