Fatigue behavior of ASTM A131 EH36 steel samples additively manufactured with selective laser melting
By tuning the process parameters mainly scanning speed ASTM A131 EH36 steel samples with high strength (1000 MPa) and fair ductility (10%) were additively manufactured through a selective laser melting process. A dual phase structure consisting of recrystallized fine ferrite and highly tempered mart...
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sg-ntu-dr.10356-1406532023-03-04T17:21:41Z Fatigue behavior of ASTM A131 EH36 steel samples additively manufactured with selective laser melting Wang, Jingjing Zhang, Meng Tan, Xipeng Liu, Tong Bi, Guijun Li, Hua Tor, Shu Beng Liu, Erjia School of Mechanical and Aerospace Engineering Singapore Centre for 3D Printing Singapore Institute of Manufacturing Technology Engineering::Materials::Material testing and characterization Engineering::Materials::Metallic materials::Alloys A131 EH36 Steel Selective Laser Melting By tuning the process parameters mainly scanning speed ASTM A131 EH36 steel samples with high strength (1000 MPa) and fair ductility (10%) were additively manufactured through a selective laser melting process. A dual phase structure consisting of recrystallized fine ferrite and highly tempered martensite (<30%) resulted from a lower laser scanning speed of 100 mm/s. The higher heat input incurred with lower scanning speed improved the densification of the built samples, which was beneficial for achieving enhanced mechanical properties. Fatigue life cycles of the samples built at lower scanning speeds surpassed those built at higher scanning speeds. Porosity induced failure was found to dominate the high cycle fatigue failure for all the samples printed, which was attributed to the ubiquitous distribution of the pores in large quantity and size with complex shapes. Grain orientation in the horizontally built samples favoured crack propagation in the early stage, which was believed to contribute to the lowered fatigue limit and life. The stable crack propagation and fast fracture regime were characterized by tearing topology surface and dimples, respectively, for the samples. The fatigue behavior of the printed EH36 steel samples was correlated to their microstructure as well as the printing process conditions. Soft phases such as retained austenite and coarsened ferrite, etc. may contribute to the fatigue behavior of the samples in certain aspect. Accepted version 2020-06-01T04:06:32Z 2020-06-01T04:06:32Z 2020 Journal Article Wang, J., Zhang, M., Tan, X., Liu, T., Bi, G., Li, H., . . . Liu, E. (2020). Fatigue behavior of ASTM A131 EH36 steel samples additively manufactured with selective laser melting. Materials Science and Engineering: A, 777, 139049-. doi:10.1016/j.msea.2020.139049 0921-5093 https://hdl.handle.net/10356/140653 10.1016/j.msea.2020.139049 777 en Materials Science and Engineering: A © 2020 Elsevier B.V. All rights reserved. This paper was published in Materials Science and Engineering: A and is made available with permission of Elsevier B.V. application/pdf |
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Engineering::Materials::Material testing and characterization Engineering::Materials::Metallic materials::Alloys A131 EH36 Steel Selective Laser Melting Wang, Jingjing Zhang, Meng Tan, Xipeng Liu, Tong Bi, Guijun Li, Hua Tor, Shu Beng Liu, Erjia Fatigue behavior of ASTM A131 EH36 steel samples additively manufactured with selective laser melting |
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By tuning the process parameters mainly scanning speed ASTM A131 EH36 steel samples with high strength (1000 MPa) and fair ductility (10%) were additively manufactured through a selective laser melting process. A dual phase structure consisting of recrystallized fine ferrite and highly tempered martensite (<30%) resulted from a lower laser scanning speed of 100 mm/s. The higher heat input incurred with lower scanning speed improved the densification of the built samples, which was beneficial for achieving enhanced mechanical properties. Fatigue life cycles of the samples built at lower scanning speeds surpassed those built at higher scanning speeds. Porosity induced failure was found to dominate the high cycle fatigue failure for all the samples printed, which was attributed to the ubiquitous distribution of the pores in large quantity and size with complex shapes. Grain orientation in the horizontally built samples favoured crack propagation in the early stage, which was believed to contribute to the lowered fatigue limit and life. The stable crack propagation and fast fracture regime were characterized by tearing topology surface and dimples, respectively, for the samples. The fatigue behavior of the printed EH36 steel samples was correlated to their microstructure as well as the printing process conditions. Soft phases such as retained austenite and coarsened ferrite, etc. may contribute to the fatigue behavior of the samples in certain aspect. |
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School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Wang, Jingjing Zhang, Meng Tan, Xipeng Liu, Tong Bi, Guijun Li, Hua Tor, Shu Beng Liu, Erjia |
| format |
Article |
| author |
Wang, Jingjing Zhang, Meng Tan, Xipeng Liu, Tong Bi, Guijun Li, Hua Tor, Shu Beng Liu, Erjia |
| author_sort |
Wang, Jingjing |
| title |
Fatigue behavior of ASTM A131 EH36 steel samples additively manufactured with selective laser melting |
| title_short |
Fatigue behavior of ASTM A131 EH36 steel samples additively manufactured with selective laser melting |
| title_full |
Fatigue behavior of ASTM A131 EH36 steel samples additively manufactured with selective laser melting |
| title_fullStr |
Fatigue behavior of ASTM A131 EH36 steel samples additively manufactured with selective laser melting |
| title_full_unstemmed |
Fatigue behavior of ASTM A131 EH36 steel samples additively manufactured with selective laser melting |
| title_sort |
fatigue behavior of astm a131 eh36 steel samples additively manufactured with selective laser melting |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/140653 |
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1759856294398787584 |