Your search keyword '"Ringer, Simon P."' showing total 3 results

1. Intergranular precipitation and chemical fluctuations in an additively manufactured 2205 duplex stainless steel.

Author

Haghdadi, Nima, Chen, Hansheng, Chen, Zibin, Babu, Sudarsanam S., Liao, Xiaozhou, Ringer, Simon P., and Primig, Sophie

Subjects

*DUPLEX stainless steel, *PRECIPITATION anomalies, *PRECIPITATION (Chemistry), *CRYSTAL grain boundaries, *THERMAL stresses, *DISLOCATION density

Abstract

Fluctuations in energy distribution during additive manufacturing (AM) can result in spatial and temporal thermal transients. These transients can lead to complexities, most significantly when alloys with multi phases are subjected to AM. Here we unveil such complexities in a duplex stainless steel, where we report an unanticipated formation of a Ni-Mn-Si rich phase at grain boundaries and a local fluctuation in Cr and Fe concentrations in regions close to grain boundaries, providing Cr-rich precursors for Cr 2 N formation after laser powder bed fusion (LPBF). The formation of these phases is believed to be due to severe thermal gyrations and thermal stresses associated with LPBF resulting in a high-volume fraction of ferrite supersaturated with N and Ni, and a high density of dislocations accelerating diffusion and phase transformations. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022

2. A quantitative atom probe study of the Nb excess at prior austenite grain boundaries in a Nb microalloyed strip-cast steel

Author

Felfer, Peter J., Killmore, Chris R., Williams, Jim G., Carpenter, Kristin R., Ringer, Simon P., and Cairney, Julie M.

Subjects

*QUANTITATIVE chemical analysis, *AUSTENITE, *NIOBIUM alloys, *CAST steel, *CRYSTAL grain boundaries, *SOLID solutions, *PHASE transitions, *PRECIPITATION (Chemistry), *THERMODYNAMICS, *MICROALLOYING

Abstract

Abstract: Most modern HSLA steels rely on the effect of Nb in steels to achieve the properties desired for a specific application. While the role of Nb in forming precipitates has been well characterized, its role in a solid solution is less well understood due to the difficulty of obtaining quantitative experimental data. In the current work, site-specific atom probe tomography was used to quantify the amount of Nb present at prior austenite grain boundaries in a commercial strip-cast steel, produced via the Castrip® process. This was compared to the amount of Nb found at ferrite–ferrite grain boundaries that had formed during the transformation from austenite to ferrite. With the interfacial excess Nb measured, thermodynamic calculations were carried out and compared to the change in transformation temperature obtained by dilatometry, with reference to a comparable Nb free, strip-cast steel. [Copyright &y& Elsevier]

Published

2012

3. Segregation of solute elements at grain boundaries in an ultrafine grained Al–Zn–Mg–Cu alloy

Author

Sha, Gang, Yao, Lan, Liao, Xiaozhou, Ringer, Simon P., Chao Duan, Zhi, and Langdon, Terence G.

Subjects

*ALUMINUM alloys, *METALLURGICAL segregation, *CRYSTAL grain boundaries, *ATOM-probe field ion microscopy, *TRACE elements, *PRECIPITATION (Chemistry)

Abstract

Abstract: The solute segregation at grain boundaries (GBs) of an ultrafine grained (UFG) Al–Zn–Mg–Cu alloy processed by equal-channel angular pressing (ECAP) at 200°C was characterised using three-dimensional atom probe. Mg and Cu segregate strongly to the grain boundaries. In contrast, Zn does not always show clear segregation and may even show depletion near the grain boundaries. Trace element Si selectively segregates at some GBs. An increase in the number of ECAP passes leads to a decrease in the grain size but an increase in solute segregation at the boundaries. The significant segregation of alloying elements at the boundaries of ultrafine-grained alloys implies that less solutes will be available in the matrix for precipitation with a decrease in the average grain size. [Copyright &y& Elsevier]

Published

2011