Influence of Temperature on Fatigue-Induced Martensitic Phase Transformation in a Metastable CrMnNi-Steel View Full Text


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Article Info

DATE

2016-01

AUTHORS

Horst Biermann, Alexander Glage, Matthias Droste

ABSTRACT

Metastable austenitic steels can exhibit a fatigue-induced martensitic phase transformation during cyclic loading. It is generally agreed that a certain strain amplitude and a threshold of the cumulated plastic strain must be exceeded to trigger martensitic phase transformation under cyclic loading. With respect to monotonic loading, the martensitic phase transformation takes place up to a critical temperature—the so-called Md temperature. The goal of the present investigation is to determine an Md,c temperature which would be the highest temperature at which a fatigue-induced martensitic phase transformation can take place. For this purpose, fatigue tests controlled by the total strain were performed at different temperatures. The material investigated was a high-alloy metastable austenitic steel X3CrMnNi16.7.7 (16.3Cr-7.2Mn-6.6Ni-0.03C-0.09N-1.0Si) produced using the hot pressing technique. The temperatures were set in the range of 283 K (10 °C) ≤ T ≤ 473 K (200 °C). Depending on the temperature and strain amplitude, the onset of the martensitic phase transformation shifted to different values of the cumulated plastic strain, or was inhibited completely. Moreover, it is known that metastable austenitic CrMnNi steels with higher nickel contents can exhibit the deformation-induced twinning effect. Thus, at higher temperatures and strain amplitudes, a transition from the deformation-induced martensitic transformation to deformation-induced twinning takes place. The fatigue-induced martensitic phase transformation was monitored during cyclic loading using a ferrite sensor. The microstructure after the fatigue tests was examined using the back-scattered electrons, the electron channeling contrast imaging and the electron backscatter diffraction techniques to study the temperature-dependent dislocation structures and phase transformations. More... »

PAGES

84-94

References to SciGraph publications

  • 1976-11. Low-cycle fatigue behavior of Mn/N stainless steels in METALLURGICAL TRANSACTIONS A
  • 1980-06. Fatigue strength of TRIP steels in METALLURGICAL TRANSACTIONS A
  • 1976-03. Phase transformation of stainless steel during fatigue in METALLURGICAL TRANSACTIONS A
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    http://scigraph.springernature.com/pub.10.1007/s11661-014-2723-1

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