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Laser welding of 316L austenitic stainless steel in an air and a water environment
ID Alhajhamoud, Mohamad (Author), ID Candan, Levent (Author), ID Ilgaz, Mehmet Alp (Author), ID Cinar, Ibrahim (Author), ID Ozbey, Sayit (Author), ID Čorović, Selma (Author), ID Miljavec, Damijan (Author), ID Kayahan, Ersin (Author)

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Abstract
Laser welding is an innovative method that is frequently used and required by different disciplines and represents a technique of choice in a wide range of applications due to important advantages such as precision, speed, and flexibility. However, the welding method must be used properly otherwise it may deteriorate the mechanical properties of the welded metal and its environment. Therefore, the laser parameters should be precisely determined and carefully applied to the sample. The primary objective of this study was to investigate and propose optimal welding parameters that should be adjusted during the neodymium-doped yttrium aluminum garnet (Nd: YAG)-pulsed laser welding of austenitic stainless steel 316L in an air welding environment by using Argon shielding gas and in wet welding settings in serum medium. The investigation of the welding process in serum medium was conducted in order to propose the most suitable welding parameters being important for future possible medical applications of laser welding in in-vivo settings and thus to investigate the possibilities of the welding process inside the human body. In order to evaluate the quality of welding in air and of wet welding (in serum), a detailed parameter study has been conducted by variation of the laser energy, the welding speed and the focal position. The relationship between the depth of penetration and specific point energy (SPE) was also evaluated. The microstructure of the welded metal was examined by an optical microscope and scanning electron microscope (SEM). Based on the microscopy results, it was found that the largest depth of penetration (1380 µm) was achieved with 19 J laser energy in air medium, while the depth reached the largest value (1240 µm) in serum medium at 28 J laser energy. The increasing energy level showed opposite behavior for air and serum. The results of our study imply that when welding of 316L stainless steel is implemented properly in the body fluid, it would be a promising start for future in-vivo studies.

Language:English
Keywords:laser welding, austenitic stainless steel 316L, Nd:YAG laser, depth of penetration, microstructure
Work type:Article
Typology:1.01 - Original Scientific Article
Organization:FE - Faculty of Electrical Engineering
Publication status:Published
Publication version:Version of Record
Year:2022
Number of pages:16 str.
Numbering:Vol. 15, iss. 6, art. 2248
PID:20.500.12556/RUL-137518 This link opens in a new window
UDC:621.791
ISSN on article:1996-1944
DOI:10.3390/ma15062248 This link opens in a new window
COBISS.SI-ID:101526787 This link opens in a new window
Publication date in RUL:20.06.2022
Views:812
Downloads:117
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Record is a part of a journal

Title:Materials
Shortened title:Materials
Publisher:Molecular Diversity Preservation International
ISSN:1996-1944
COBISS.SI-ID:33588485 This link opens in a new window

Licences

License:CC BY 4.0, Creative Commons Attribution 4.0 International
Link:http://creativecommons.org/licenses/by/4.0/
Description:This is the standard Creative Commons license that gives others maximum freedom to do what they want with the work as long as they credit the author.
Licensing start date:18.03.2022

Secondary language

Language:Slovenian
Keywords:lasersko varjenje, avstenitno nerjavno jeklo 316L, laser Nd:YAG, globina prodiranja, mikrostruktura

Projects

Funder:Other - Other funder or multiple funders
Funding programme:Kocaeli University, Scientific Research Unit (BAP)
Project number:2019/75

Funder:TUBITAK - Türkiye Bilimsel ve Teknolojik Araştırma Kurumu
Project number:5170001

Funder:EC - European Commission
Funding programme:Horizon 2020
Project number:101006747

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