Impact of 316L Stainless Steel on Microstructural and Mechanical Properties of AA5083/316L Metal Matrix Composites: Impact of 316L Stainless Steel on Microstructural and Mechanical Properties of AA5083/316L Metal Matrix Composites: Sekban.
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| Title: | Impact of 316L Stainless Steel on Microstructural and Mechanical Properties of AA5083/316L Metal Matrix Composites: Impact of 316L Stainless Steel on Microstructural and Mechanical Properties of AA5083/316L Metal Matrix Composites: Sekban. |
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| Authors: | Sekban, Dursun Murat1,2 (AUTHOR) msekban@ktu.edu.tr |
| Source: | JOM: The Journal of The Minerals, Metals & Materials Society (TMS). Apr2025, Vol. 77 Issue 4, p1969-1978. 10p. |
| Subjects: | Mechanical properties of metals, Intermetallic compounds, Stainless steel, Specific gravity, Tensile strength, Metallic composites |
| Abstract: | In this study, 316L stainless steel particles were added to the AA5083 matrix phase in varying amounts (5%, 10%, 15% and 20%), and the microstructural and mechanical properties of the MMCs were examined. As a result of the examinations, it was determined that Fe atoms and Fe-Al based intermetallic compounds were formed in the microstructure of the MMCs, and the rate of intermetallic compounds increased with the increase of 316L stainless steel added. The relative density value of AA5083 alloy, which was 98.6%, decreased continuously with the amount of 316L stainless steel added and decreased to 80.5% in the MMC created by adding 20% 316L. Hardness values of AA5083 alloy (80 BSD) increased continuously with the added amount of 316L and reached 132 BSD when 20% 316L was added. The tensile strength of the AA5083 alloy was enhanced in all MMCs, with the maximum tensile strength recorded at 238 MPa in the MMC containing 10% of 316L stainless steel. Also, when the 10% 316L stainless steel particle addition in MMCs was exceeded, the tensile strength started to decrease as a result of the increasing void ratio. Corrosion testing revealed that, compared to AA5083, all MMCs had higher corrosion resistance. [ABSTRACT FROM AUTHOR] |
| Copyright of JOM: The Journal of The Minerals, Metals & Materials Society (TMS) is the property of Springer Nature and its content may not be copied or emailed to multiple sites without the copyright holder's express written permission. Additionally, content may not be used with any artificial intelligence tools or machine learning technologies. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.) | |
| Database: | Engineering Source |
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| Abstract: | In this study, 316L stainless steel particles were added to the AA5083 matrix phase in varying amounts (5%, 10%, 15% and 20%), and the microstructural and mechanical properties of the MMCs were examined. As a result of the examinations, it was determined that Fe atoms and Fe-Al based intermetallic compounds were formed in the microstructure of the MMCs, and the rate of intermetallic compounds increased with the increase of 316L stainless steel added. The relative density value of AA5083 alloy, which was 98.6%, decreased continuously with the amount of 316L stainless steel added and decreased to 80.5% in the MMC created by adding 20% 316L. Hardness values of AA5083 alloy (80 BSD) increased continuously with the added amount of 316L and reached 132 BSD when 20% 316L was added. The tensile strength of the AA5083 alloy was enhanced in all MMCs, with the maximum tensile strength recorded at 238 MPa in the MMC containing 10% of 316L stainless steel. Also, when the 10% 316L stainless steel particle addition in MMCs was exceeded, the tensile strength started to decrease as a result of the increasing void ratio. Corrosion testing revealed that, compared to AA5083, all MMCs had higher corrosion resistance. [ABSTRACT FROM AUTHOR] |
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| ISSN: | 10474838 |
| DOI: | 10.1007/s11837-024-06835-5 |
