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Influence of strain rate and temperature on the deformation behavior of a metastable high carbon iron-nickel austenite

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Abstract

Austenitic specimens of Fe-15 wt pct Ni-0.8 wt pct C were tested in tension at strain rates of 10−4 s−1 and 10−1 s−1 over the temperature range −20°C to 60 °C. The influence of strain rate and temperature on the deformation behavior depended on whether stress-assisted or strain-induced martensitic trans-formation occurred during testing. Under conditions of stress-assisted transformation, the ductility was low and independent of strain rate. However, when strain-induced transformation occurred, the duc-tility increased significantly and the higher strain rate resulted in greater ductility and more transfor-mation. Although the ductility increased continuously with temperature, the amount of strain-induced transformation decreased and no martensite was observed above 40 °C. Microstructural examination showed that the martensite was replaced by intense bands and that these bands contained very fine (111) fcc twins. The twinning resulted in enhanced plasticity by providing an additional mode of deformation as slip became more difficult due to dynamic strain aging at the higher temperature. This study confirms that the substructure following deformation will depend on the proximity of the deformation temperature to theM σs temperature. At temperatures much greater thanM σs , austenite twinning will occur, while at temperatures close toM σs , bcc martensite will form.

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Authors and Affiliations

  1. Metallurgy Department, General Motors Research Laboratories, 48090-9056, Warren, MI

    Anil K. Sachdev (Staff Research Engineer) & Michael M. Shea (Senior Staff Research Engineer)

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  1. Anil K. Sachdev
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  2. Michael M. Shea
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Sachdev, A.K., Shea, M.M. Influence of strain rate and temperature on the deformation behavior of a metastable high carbon iron-nickel austenite. Metall Trans A 16, 445–452 (1985). https://doi.org/10.1007/BF02814343

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  • DOI: https://doi.org/10.1007/BF02814343

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