Comparison of Thermodynamic Predictions and Experimental Observations on B Additions in Powder-Processed Ni-Based Superalloys Containing Elevated Concentrations of Nb

Antonov, Stoichko; Huo, Jiajie; Feng, Qiang; Isheim, Dieter; Seidman, David N.; Sun, Eugene; Tin, Sammy

doi:10.1007/s11661-017-4380-7

Cited by 6 publications

(2 citation statements)

References 45 publications

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“…Recent efforts to develop advanced polycrystalline Ni-base superalloys have focused on exploiting increased levels of Ta and/or Nb to improve strength and temperature capability for next-generation disk alloys. In the present study, we investigate the partitioning at crystal defects after creep in an experimental polycrystalline Ni-base superalloys with two different levels of Nb, namely RRHT3 (low-Nb) and RRHT5 (high-Nb), whose compositions are detailed below [31,32]. Their creep performance at the intermediate temperature of 750°C was evaluated.…”

Section: Introductionmentioning

confidence: 99%

Enhanced creep performance in a polycrystalline superalloy driven by atomic-scale phase transformation along planar faults

et al. 2021

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Section: Introductionmentioning

confidence: 99%

Enhanced creep performance in a polycrystalline superalloy driven by atomic-scale phase transformation along planar faults

et al. 2021

Self Cite

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“…Antonov et al [4] investigated distribution of B in high Nb-containing powder-processed polycrystalline Ni-based superalloys. The analyses showed that a relatively high solubility of B in the c phase leading to a lower concentration of B along grain boundaries affects formation of borides and r phase.…”

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confidence: 99%

Foreword

Suzuki

Heilmaier

Sallot

et al. 2018

Metall Mater Trans A

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Nickel-based superalloys possess an excellent combination of mechanical properties and environmental resistance at elevated temperatures, and have been widely used in challenging environments prevalent in aircraft engines and land-based power generation gas turbines, as well as in nuclear power systems and chemical plants. The ever-increasing demand for higher operating temperatures to achieve better fuel efficiency has been driving the development of the next generation of superalloys, in which the higher temperature capability has been achieved by increasing additions of refractory elements, optimizing processing conditions, and through the application of coatings. However, there is a strong need for materials that can make a disruptive change in temperature capability beyond that provided by current materials.The symposium ''Materials for High Temperature Applications: Next Generation Superalloys and Beyond'' was held during the 2017 TMS annual Meeting from February 27 to March 2, 2017 in San Diego, California, with the sponsorship from the TMS High Temperature Alloys Committee and TMS Refractory Metals Committee. The goal of this symposium was to discuss (i) challenges that current Ni-based superalloys are facing and (ii) the recent progress in the development of next generation of superalloys and high temperature material systems beyond Ni-based superalloys. The symposium was composed of a total of seven sessions covering current and next generation Ni-based superalloys, refractory metal-based materials, intermetallic-based materials, coatings, Ir-based alloys, and ceramics composites and emerging materials. The organizers would like to thank all the presenters and the participants for their excellent contribution to the success of this symposium. There were in total 60 oral presentations, including 2 keynote presentations and 18 invited presentations, and 6 poster presentations. This special issue presents selections of 10 high quality research papers submitted to this symposium. We would like to express our appreciation to Prof.

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γ′ Thermodynamic Simulation and Experimental Validation of Phase Stability in Ni-Based Superalloys

Ventura

Beaudry

Avilés

et al. 2020

The Minerals, Metals &Amp; Materials Series

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Comparison of Thermodynamic Predictions and Experimental Observations on B Additions in Powder-Processed Ni-Based Superalloys Containing Elevated Concentrations of Nb

Cited by 6 publications

References 45 publications

Enhanced creep performance in a polycrystalline superalloy driven by atomic-scale phase transformation along planar faults

Enhanced creep performance in a polycrystalline superalloy driven by atomic-scale phase transformation along planar faults

Foreword

γ′ Thermodynamic Simulation and Experimental Validation of Phase Stability in Ni-Based Superalloys

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