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作者:

Ge, Jinguo (Ge, Jinguo.) | Yan, Xingchen (Yan, Xingchen.) | Lei, Yongping (Lei, Yongping.) (学者:雷永平) | Ahmed, Mansur (Ahmed, Mansur.) | O'Reilly, Peter (O'Reilly, Peter.) | Zhang, Chao (Zhang, Chao.) | Lupoi, Rocco (Lupoi, Rocco.) | Yin, Shuo (Yin, Shuo.)

收录:

EI SCIE

摘要:

In this paper, Ti6Al4V octahedron lattice structures with top cap and bottom base were fabricated through selective laser melting (SLM). The structural integrity, microstructural evolution, compressive properties and failure mechanism of as-fabricated (AF) and vacuum annealing treated (VAT) samples were studied through both experiments and numerical modeling. The X-ray computed tomography analysis revealed that vacuum annealing had an insignificant effect on internal pore elimination and porosity reduction. For both the AF and VAT samples, larger pores exhibited more irregular shape than smaller pores. The microstructural analysis suggested that vacuum annealing was able to transform acicular α/α` martensites into uniformly distributed lamellar α + β phases and also to cause the formation of nano-particle precipitation and dislocation. The compressive test indicted that the lattice structure with confined top and bottom had much better compressive properties than those without. Also, vacuum annealing significantly improved the compressive strength by 26% due to the synergistic effect of residual stress relief, nano-particle precipitation and dislocation strengthening. The ductility of the VAT sample was also improved as compared to the AF sample, which was mainly attributed to the formation of α + β phases. © 2020 The Authors

关键词:

Aluminum alloys Annealing Compressive strength Computerized tomography Failure (mechanical) Nanoparticles Precipitation (chemical) Selective laser melting Stress relief Ternary alloys Titanium alloys

作者机构:

  • [ 1 ] [Ge, Jinguo]Department of Mechanical, Manufacturing and Biomedical Engineering, The University of Dublin, Parsons Building, Dublin 2, Ireland
  • [ 2 ] [Ge, Jinguo]School of Mechanical and Electrical Engineering, Guilin University of Electronic Technology, China
  • [ 3 ] [Ge, Jinguo]School of Materials Science and Engineering, Beijing University of Technology, Beijing; 100124, China
  • [ 4 ] [Yan, Xingchen]Department of Mechanical, Manufacturing and Biomedical Engineering, The University of Dublin, Parsons Building, Dublin 2, Ireland
  • [ 5 ] [Lei, Yongping]School of Materials Science and Engineering, Beijing University of Technology, Beijing; 100124, China
  • [ 6 ] [Ahmed, Mansur]Department of Mechanical, Manufacturing and Biomedical Engineering, The University of Dublin, Parsons Building, Dublin 2, Ireland
  • [ 7 ] [O'Reilly, Peter]Department of Mechanical, Manufacturing and Biomedical Engineering, The University of Dublin, Parsons Building, Dublin 2, Ireland
  • [ 8 ] [Zhang, Chao]College of Mechanical Engineering, Yangzhou University, Yangzhou; 225127, China
  • [ 9 ] [Lupoi, Rocco]Department of Mechanical, Manufacturing and Biomedical Engineering, The University of Dublin, Parsons Building, Dublin 2, Ireland
  • [ 10 ] [Yin, Shuo]Department of Mechanical, Manufacturing and Biomedical Engineering, The University of Dublin, Parsons Building, Dublin 2, Ireland

通讯作者信息:

  • [yin, shuo]department of mechanical, manufacturing and biomedical engineering, the university of dublin, parsons building, dublin 2, ireland

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来源 :

Materials and Design

ISSN: 0264-1275

年份: 2021

卷: 198

8 . 4 0 0

JCR@2022

被引次数:

WoS核心集被引频次: 0

SCOPUS被引频次: 31

ESI高被引论文在榜: 0 展开所有

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