In situ x-ray CT under tensile loading using synchrotron radiation

T. Hirano, K. Usami, Y. Tanaka, C. Masuda

研究成果: Article

28 引用 (Scopus)

抄録

Internal damage in metal matrix composites (MMC) under static tensile loading was observed by in situ X-ray computed tomography based on synchrotron radiation (SR-CT). A tensile testing sample stage was developed to investigate the fracture process during the tensile test. Aluminum alloy matrix composites reinforced by long or short SiC fibers were used. The in situ SR-CT allowed the observation of the generation and growth of defects in the samples under tensile stress levels. In situ SR-CT is a useful method for understanding failure mechanisms in advanced materials.

元の言語English
ページ(範囲)381-386
ページ数6
ジャーナルJournal of Materials Research
10
発行部数2
出版物ステータスPublished - 1995 2
外部発表Yes

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Synchrotron radiation
synchrotron radiation
X rays
metal matrix composites
Tensile testing
Composite materials
tensile tests
tensile stress
Tensile stress
aluminum alloys
Tomography
Aluminum alloys
x rays
tomography
Metals
damage
Defects
composite materials
fibers
Fibers

ASJC Scopus subject areas

  • Materials Science(all)

これを引用

Hirano, T., Usami, K., Tanaka, Y., & Masuda, C. (1995). In situ x-ray CT under tensile loading using synchrotron radiation. Journal of Materials Research, 10(2), 381-386.

In situ x-ray CT under tensile loading using synchrotron radiation. / Hirano, T.; Usami, K.; Tanaka, Y.; Masuda, C.

:: Journal of Materials Research, 巻 10, 番号 2, 02.1995, p. 381-386.

研究成果: Article

Hirano, T, Usami, K, Tanaka, Y & Masuda, C 1995, 'In situ x-ray CT under tensile loading using synchrotron radiation', Journal of Materials Research, 巻. 10, 番号 2, pp. 381-386.
Hirano T, Usami K, Tanaka Y, Masuda C. In situ x-ray CT under tensile loading using synchrotron radiation. Journal of Materials Research. 1995 2;10(2):381-386.
Hirano, T. ; Usami, K. ; Tanaka, Y. ; Masuda, C. / In situ x-ray CT under tensile loading using synchrotron radiation. :: Journal of Materials Research. 1995 ; 巻 10, 番号 2. pp. 381-386.
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