Yanxu Wang scite author profile

The phase transformation behavior from austenite upon cooling in a 1.5Mn-1.5Si-0.2C steel was in situ monitored using dilatometry, X-ray and neutron diffractions. The starting temperature of ferrite transformation was in good agreement between dilatometry and neutron diffraction, whereas much higher in X-ray diffraction. Such a discrepancy in transformation temperature is attributed to the change in chemical composition near the surface of a specimen heated to elevated temperatures in a helium gas atmosphere for X-ray diffraction. In situ neutron diffraction enables us to investigate the changes in lattice constants of ferrite and austenite, which are affected by not only thermal contraction but also transformation strains, thermal misfit strains and carbon enrichment in austenite. Pearlite transformation started after carbon enrichment in austenite reached approximately 0.7 mass% and contributed to diffraction line broadening.

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In-situ neutron diffraction during tension-compression cyclic deformation of a pearlite steel

Wang

Tomota

Harjo

et al. 2016

Materials Science and Engineering: A

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Yanxu Wang

Real time observation of martensite transformation for a 0.4C low alloyed steel by neutron diffraction

<i>In situ</i> Neutron Diffraction on Ferrite and Pearlite Transformations for a 1.5Mn-1.5Si-0.2C Steel

In-situ neutron diffraction during tension-compression cyclic deformation of a pearlite steel

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