Quantitative measurement of residual biaxial stress by Raman spectroscopy in diamond grown on a Ti alloy by chemical vapor deposition

Artigo

Quantitative measurement of residual biaxial stress by Raman spectroscopy in diamond grown on a Ti alloy by chemical vapor deposition

1993; American Physical Society; Volume: 48; Issue: 4 Linguagem: Inglês

10.1103/physrevb.48.2601

ISSN

1095-3795

Autores

Joel W. Ager, M. D. Drory,

Tópico(s)

Advanced Surface Polishing Techniques

Resumo

Raman spectroscopy is used to study residual stress in diamond grown on Ti--6Al--4V by chemical vapor deposition. A general model is developed to use Raman spectroscopy to measure biaxial stress in polycrystalline, diamond-structure films. The as-grown film has 7.1 GPa of residual compressive stress, consistent with the difference in thermal-expansion coefficients between the diamond film and the substrate. Examination of the Raman spectra of the film in the vicinity of Brale indentations reveals that residual stresses in the film of up to approximately 17 GPa can be accommodated in the film before delamination occurs.

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Quantitative measurement of residual biaxial stress by Raman spectroscopy in diamond grown on a Ti alloy by chemical vapor deposition