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Tippey, Kristin
Helmholtz-Zentrum Dresden-Rossendorf
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- 2023Epitaxial Stabilization of Perovskite ATeO3 Thin Films
- 2023Epitaxial stabilization of perovskite ATeO3 thin films
- 2021BiInO3 phases under asymmetric in-plane strain
- 2019Effects of alloying and processing modifications on precipitation behavior and elevated temperature strength in 9% Cr ferritic/martensitic steelscitations
- 2014Concepts for the Development of Nanoscale Stable Precipitation-Strengthened Steels Manufactured by Conventional Methodscitations
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article
Effects of alloying and processing modifications on precipitation behavior and elevated temperature strength in 9% Cr ferritic/martensitic steels
Abstract
wo low-carbon 9-Cr ferritic-martensitic steels were designed with the aim of decreasing M23C6 and maintaining or increasing MX phase fraction. A low-carbon (LC) alloy and a low-carbon, zero-niobium (0Nb) alloy were fabricated, their designs based upon the P92 alloy system. Solutionizing temperatures to maximize V and Nb in solution while avoiding δ-ferrite were determined to be 1170 °C for the P92 alloy and 1050 °C for LC and 0Nb, significantly lower than predicted using ThermoCalc® modeling. As was intended, the M23C6 phase fraction was reduced for LC and 0Nb alloys after both heat treating and aging relative to the base P92 alloy, as determined by wide angle x-ray scattering (WAXS) analysis. Dislocation density measurements from x-ray line broadening in P92 and LC suggest these alloys had more stable dislocation substructures than 0Nb at lower temperature and shorter time aging conditions. While LC exhibited lower microhardness than P92 at room temperature, the tensile properties were comparable at 650 °C, suggesting that elevated temperature strength can be achieved with lower carbon contents. Aging studies showed that P92 had a more stable microstructure for higher temperature and longer time aging conditions. The P92 alloy also had a longer stress rupture life, implying that the M23C6 precipitate contribution to thermal stability is important. Evidence of Z-phase was discovered for the LC alloy aged 10,000 h at 650 °C, corresponding to decreased strength and increased ductility. Overall, the stress rupture lives of the modified heat-treatment variations of P92 and LC compare favorably to literature values for 9% Cr steels with conventional heat treatments.