Effect of Stress Relieving Heat Treatment on the Microstructure and High-Temperature Compressive Deformation Behavior of Ti-6Al-4V Alloy Manufactured by Selective Laser Melting

This study aims to investigate the effect of stress relieving heat treatment on the microstructure and high-temperature compressive deformation behavior of the Ti-6Al-4V alloy, manufactured by selective laser melting. Initial microstructural observation confirmed elongated prior β grains in the buil...

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Published in	Metallurgical and materials transactions. A, Physical metallurgy and materials science Vol. 49; no. 11; pp. 5763 - 5774
Main Authors	Kim, Young-Kyun, Park, Soon-Hong, Kim, Yong-Jin, Almangour, Bandar, Lee, Kee-Ahn
Format	Journal Article
Language	English
Published	New York Springer US 01.11.2018 Springer Nature B.V
Subjects	Characterization and Evaluation of Materials Chemistry and Materials Science Compression tests Compressive properties Compressive strength Deformation Elongation Heat treating Heat treatment Laser beam melting Martensite Materials Science Metallic Materials Microstructure Nanotechnology Stress relieving Structural Materials Surfaces and Interfaces Thin Films Titanium base alloys Yield strength
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Abstract	This study aims to investigate the effect of stress relieving heat treatment on the microstructure and high-temperature compressive deformation behavior of the Ti-6Al-4V alloy, manufactured by selective laser melting. Initial microstructural observation confirmed elongated prior β grains in the building direction of both specimens (as-fabricated and heat-treated specimens). Along with such, the as-fabricated specimen only featured α′ -martensite phase, while the heat-treated specimen featured α′ -martensite and some α and β phases. Compression tests carried out at room temperature gave yield strengths of 1365 and 1138 MPa for the as-fabricated and heat-treated specimens, respectively. Such values are similar or greater than those of commercial wrought materials. The compressive fracture strain significantly increased after heat treatment. There was a general tendency of reducing yield strength as compressive temperatures increased. At temperatures greater than 700 °C, the as-fabricated and heat-treated specimens achieved similar strength. Microstructural observation after deformation confirmed that the initial microstructure was retained up to temperatures of 500 °C. At 700 °C or greater, both specimens showed drastic microstructural evolution.
AbstractList	This study aims to investigate the effect of stress relieving heat treatment on the microstructure and high-temperature compressive deformation behavior of the Ti-6Al-4V alloy, manufactured by selective laser melting. Initial microstructural observation confirmed elongated prior β grains in the building direction of both specimens (as-fabricated and heat-treated specimens). Along with such, the as-fabricated specimen only featured α′-martensite phase, while the heat-treated specimen featured α′-martensite and some α and β phases. Compression tests carried out at room temperature gave yield strengths of 1365 and 1138 MPa for the as-fabricated and heat-treated specimens, respectively. Such values are similar or greater than those of commercial wrought materials. The compressive fracture strain significantly increased after heat treatment. There was a general tendency of reducing yield strength as compressive temperatures increased. At temperatures greater than 700 °C, the as-fabricated and heat-treated specimens achieved similar strength. Microstructural observation after deformation confirmed that the initial microstructure was retained up to temperatures of 500 °C. At 700 °C or greater, both specimens showed drastic microstructural evolution. This study aims to investigate the effect of stress relieving heat treatment on the microstructure and high-temperature compressive deformation behavior of the Ti-6Al-4V alloy, manufactured by selective laser melting. Initial microstructural observation confirmed elongated prior β grains in the building direction of both specimens (as-fabricated and heat-treated specimens). Along with such, the as-fabricated specimen only featured α′ -martensite phase, while the heat-treated specimen featured α′ -martensite and some α and β phases. Compression tests carried out at room temperature gave yield strengths of 1365 and 1138 MPa for the as-fabricated and heat-treated specimens, respectively. Such values are similar or greater than those of commercial wrought materials. The compressive fracture strain significantly increased after heat treatment. There was a general tendency of reducing yield strength as compressive temperatures increased. At temperatures greater than 700 °C, the as-fabricated and heat-treated specimens achieved similar strength. Microstructural observation after deformation confirmed that the initial microstructure was retained up to temperatures of 500 °C. At 700 °C or greater, both specimens showed drastic microstructural evolution.
Author	Almangour, Bandar Kim, Young-Kyun Kim, Yong-Jin Park, Soon-Hong Lee, Kee-Ahn
Author_xml	– sequence: 1 givenname: Young-Kyun surname: Kim fullname: Kim, Young-Kyun organization: Department of Materials Science and Engineering, Inha University – sequence: 2 givenname: Soon-Hong surname: Park fullname: Park, Soon-Hong organization: RIST – sequence: 3 givenname: Yong-Jin surname: Kim fullname: Kim, Yong-Jin organization: KIMS – sequence: 4 givenname: Bandar surname: Almangour fullname: Almangour, Bandar organization: School of Engineering and Applied Sciences, Harvard University – sequence: 5 givenname: Kee-Ahn surname: Lee fullname: Lee, Kee-Ahn email: keeahn@inha.ac.kr organization: Department of Materials Science and Engineering, Inha University
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SubjectTerms	Characterization and Evaluation of Materials Chemistry and Materials Science Compression tests Compressive properties Compressive strength Deformation Elongation Heat treating Heat treatment Laser beam melting Martensite Materials Science Metallic Materials Microstructure Nanotechnology Stress relieving Structural Materials Surfaces and Interfaces Thin Films Titanium base alloys Yield strength
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Title	Effect of Stress Relieving Heat Treatment on the Microstructure and High-Temperature Compressive Deformation Behavior of Ti-6Al-4V Alloy Manufactured by Selective Laser Melting
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