Microstructural evolution of martensitic 100Cr6 bearing steel during tempering: From thermoelectric power measurements to the prediction of dimensional changes

@inproceedings{Perez2009MicrostructuralEO,
  title={Microstructural evolution of martensitic 100Cr6 bearing steel during tempering: From thermoelectric power measurements to the prediction of dimensional changes},
  author={Michel Perez and Christine Sidoroff and Alain Vincent and Claude Esnouf},
  year={2009}
}
Tempering of a martensitic 100Cr6 (AISI52100) bearing steel during isothermal treatments is studied using thermoelectric power, transmission electron microscopy (TEM), X-ray diffraction and dimensional analysis. Dimensional changes occurring during tempering are due to: (i) the precipitation of e-carbides, (ii) the decomposition of retained austenite, (iii) the precipitation of cementite and (iv) the recovery of the dislocation structure and coarsening of martensite lathes. Analysis of… CONTINUE READING

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  • 2018
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CITES BACKGROUND

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References

Publications referenced by this paper.
SHOWING 1-7 OF 7 REFERENCES

Mater Sci Eng A 2006;442:471

I Tkalcec, D Mari, W. Benoit
  • Acta Materialia
  • 2009
VIEW 1 EXCERPT

Scripta Mater 1990;24:509

L Cheng, A Böttger, TH Keijser, EJ. Mittemeijer
  • 1990
VIEW 2 EXCERPTS

Metall Trans A 1988;19A:2415

L Cheng, CM Brakman, BM Korevaar, EJ. Mittemeijer
  • 1988
VIEW 1 EXCERPT