Determination of Local Residual Stress on Post-Treated TiAlN-Coated Tungsten Carbide Tools

Research output: Contribution to journalArticleResearchpeer review

Authors

  • B. Breidenstein
  • N. Vogel
  • H. Behrens
  • M. Dietrich
  • J. M. Andersson

Research Organisations

External Research Organisations

  • Seco Tools AB
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Details

Original languageEnglish
Pages (from-to)663-671
Number of pages9
JournalJournal of Surface Investigation
Volume16
Issue number4
Early online date3 Aug 2022
Publication statusPublished - Aug 2022

Abstract

Abstract: Through the use of tool coatings, a significant increase in tool life is possible. Particularly in the case of coatings obtained by physical vapor deposition, compressive residual stresses show a clearly positive influence on the wear behavior of coated carbide tools. In addition to being influenced by the coating process itself, the residual stress state of the coating can also be influenced by post-treatment processes like heat treatment or wet blasting. Compressive residual stresses can be measured using known X-ray diffraction techniques. However, these methods are very limited on strongly curved surfaces such as cutting edges. Raman spectroscopy has great potential for measurements in such areas. In order to use the Raman method to measure residual stresses on cutting tools, the TiAlN coatings were subjected to wet blasting and heat treatment. The residual stress state was determined by X-ray diffraction using the sin2ψ method and the depth-resolved scattering vector method. Then, measurements of Raman scattering of light were carried out and the peak shift of the transversal/longitudinal optical mode in the Raman spectrum was measured. Finally, the peak shift in the cutting edge area was determined. The investigations show that residual stresses mechanically induced by wet blasting can be reliably detected by Raman spectroscopy. Heat treatment effects are also clearly detectable, but here the correlation between peak shift and residual stresses determined by X-ray diffraction methods differs from the previous results due to the change in the crystal lattice dimensions. The residual stresses in the cutting edge area, converted from Raman peak shifts, show values of a plausible order of magnitude.

Keywords

    aluminium titanium nitride, cutting edge, heat treatment, lattice parameter, PVD coating, Raman spectroscopy, residual stress, scattering vector method, sinpsi, wet blasting

ASJC Scopus subject areas

Cite this

Determination of Local Residual Stress on Post-Treated TiAlN-Coated Tungsten Carbide Tools. / Breidenstein, B.; Vogel, N.; Behrens, H. et al.
In: Journal of Surface Investigation, Vol. 16, No. 4, 08.2022, p. 663-671.

Research output: Contribution to journalArticleResearchpeer review

Breidenstein, B, Vogel, N, Behrens, H, Dietrich, M & Andersson, JM 2022, 'Determination of Local Residual Stress on Post-Treated TiAlN-Coated Tungsten Carbide Tools', Journal of Surface Investigation, vol. 16, no. 4, pp. 663-671. https://doi.org/10.1134/S1027451022040231
Breidenstein, B., Vogel, N., Behrens, H., Dietrich, M., & Andersson, J. M. (2022). Determination of Local Residual Stress on Post-Treated TiAlN-Coated Tungsten Carbide Tools. Journal of Surface Investigation, 16(4), 663-671. https://doi.org/10.1134/S1027451022040231
Breidenstein B, Vogel N, Behrens H, Dietrich M, Andersson JM. Determination of Local Residual Stress on Post-Treated TiAlN-Coated Tungsten Carbide Tools. Journal of Surface Investigation. 2022 Aug;16(4):663-671. Epub 2022 Aug 3. doi: 10.1134/S1027451022040231
Breidenstein, B. ; Vogel, N. ; Behrens, H. et al. / Determination of Local Residual Stress on Post-Treated TiAlN-Coated Tungsten Carbide Tools. In: Journal of Surface Investigation. 2022 ; Vol. 16, No. 4. pp. 663-671.
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abstract = "Abstract: Through the use of tool coatings, a significant increase in tool life is possible. Particularly in the case of coatings obtained by physical vapor deposition, compressive residual stresses show a clearly positive influence on the wear behavior of coated carbide tools. In addition to being influenced by the coating process itself, the residual stress state of the coating can also be influenced by post-treatment processes like heat treatment or wet blasting. Compressive residual stresses can be measured using known X-ray diffraction techniques. However, these methods are very limited on strongly curved surfaces such as cutting edges. Raman spectroscopy has great potential for measurements in such areas. In order to use the Raman method to measure residual stresses on cutting tools, the TiAlN coatings were subjected to wet blasting and heat treatment. The residual stress state was determined by X-ray diffraction using the sin2ψ method and the depth-resolved scattering vector method. Then, measurements of Raman scattering of light were carried out and the peak shift of the transversal/longitudinal optical mode in the Raman spectrum was measured. Finally, the peak shift in the cutting edge area was determined. The investigations show that residual stresses mechanically induced by wet blasting can be reliably detected by Raman spectroscopy. Heat treatment effects are also clearly detectable, but here the correlation between peak shift and residual stresses determined by X-ray diffraction methods differs from the previous results due to the change in the crystal lattice dimensions. The residual stresses in the cutting edge area, converted from Raman peak shifts, show values of a plausible order of magnitude.",
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T1 - Determination of Local Residual Stress on Post-Treated TiAlN-Coated Tungsten Carbide Tools

AU - Breidenstein, B.

AU - Vogel, N.

AU - Behrens, H.

AU - Dietrich, M.

AU - Andersson, J. M.

N1 - Funding Information: The authors would like to thank the German Research Foundation (DFG) for funding research project BR 2967/11-1 BE1720/41-1 “Effects of cutting edge residual stresses on the wear behavior of PVD-coated cutting tools.”

PY - 2022/8

Y1 - 2022/8

N2 - Abstract: Through the use of tool coatings, a significant increase in tool life is possible. Particularly in the case of coatings obtained by physical vapor deposition, compressive residual stresses show a clearly positive influence on the wear behavior of coated carbide tools. In addition to being influenced by the coating process itself, the residual stress state of the coating can also be influenced by post-treatment processes like heat treatment or wet blasting. Compressive residual stresses can be measured using known X-ray diffraction techniques. However, these methods are very limited on strongly curved surfaces such as cutting edges. Raman spectroscopy has great potential for measurements in such areas. In order to use the Raman method to measure residual stresses on cutting tools, the TiAlN coatings were subjected to wet blasting and heat treatment. The residual stress state was determined by X-ray diffraction using the sin2ψ method and the depth-resolved scattering vector method. Then, measurements of Raman scattering of light were carried out and the peak shift of the transversal/longitudinal optical mode in the Raman spectrum was measured. Finally, the peak shift in the cutting edge area was determined. The investigations show that residual stresses mechanically induced by wet blasting can be reliably detected by Raman spectroscopy. Heat treatment effects are also clearly detectable, but here the correlation between peak shift and residual stresses determined by X-ray diffraction methods differs from the previous results due to the change in the crystal lattice dimensions. The residual stresses in the cutting edge area, converted from Raman peak shifts, show values of a plausible order of magnitude.

AB - Abstract: Through the use of tool coatings, a significant increase in tool life is possible. Particularly in the case of coatings obtained by physical vapor deposition, compressive residual stresses show a clearly positive influence on the wear behavior of coated carbide tools. In addition to being influenced by the coating process itself, the residual stress state of the coating can also be influenced by post-treatment processes like heat treatment or wet blasting. Compressive residual stresses can be measured using known X-ray diffraction techniques. However, these methods are very limited on strongly curved surfaces such as cutting edges. Raman spectroscopy has great potential for measurements in such areas. In order to use the Raman method to measure residual stresses on cutting tools, the TiAlN coatings were subjected to wet blasting and heat treatment. The residual stress state was determined by X-ray diffraction using the sin2ψ method and the depth-resolved scattering vector method. Then, measurements of Raman scattering of light were carried out and the peak shift of the transversal/longitudinal optical mode in the Raman spectrum was measured. Finally, the peak shift in the cutting edge area was determined. The investigations show that residual stresses mechanically induced by wet blasting can be reliably detected by Raman spectroscopy. Heat treatment effects are also clearly detectable, but here the correlation between peak shift and residual stresses determined by X-ray diffraction methods differs from the previous results due to the change in the crystal lattice dimensions. The residual stresses in the cutting edge area, converted from Raman peak shifts, show values of a plausible order of magnitude.

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KW - heat treatment

KW - lattice parameter

KW - PVD coating

KW - Raman spectroscopy

KW - residual stress

KW - scattering vector method

KW - sinpsi

KW - wet blasting

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