Modeling the Effects of Oversize Solute Additions on Radiation-Induced Segregation in Austenitic Stainless Steels

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Volume 2, Issue 7 (July 2005)

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ISSN: 1546-962X
Page Count: 13

Modeling the Effects of Oversize Solute Additions on Radiation-Induced Segregation in Austenitic Stainless Steels
Hackett, MJ
Graduate Student, University of Michigan, MI

Was, GS
Professor, University of Michigan, MI

Simonen, EP
Staff Scientist, Pacific Northwest National Laboratory, WA

Abstract

Oversize solute additions to stainless steels hold promise for reducing radiation-induced segregation (RIS), possibly delaying the onset and severity of irradiation-assisted stress-corrosion cracking (IASCC). The Modified Inverse Kirkendall (MIK) model for RIS in austenitic stainless steels was adapted to include the effects of defect trapping, which is expected to be caused by oversized solutes, on RIS. The model accounts for the sensitivity of RIS to both dose rate and temperature. Model results show that the primary contribution to the reduction in RIS occurs through vacancy trapping and recombination with migrating interstitials, requiring strong solute binding energies on the order of 1.0 eV. The maximum reduction in RIS due to defect trapping increases with dose rate and temperature. The general trends of the model are consistent with experimental data from proton and neutron irradiations.

Keywords:
modeling, segregation, oversize solute addition, grain boundary, austenitic stainless steel, chromium, vacancy, interstitial

Paper ID: JAI12402
DOI: 10.1520/JAI12402
ASTM International is a member of CrossRef.

Author Title Modeling the Effects of Oversize Solute Additions on Radiation-Induced Segregation in Austenitic Stainless Steels Symposium Effects of Radiation on Materials: 22nd International Symposium, 2004-06-10 Committee E10

		Home Journals STPs Manuals Topics Subscriptions/Pricing Digital Library / Journals / Journal of ASTM International (JAI) / Citation Page Volume 2, Issue 7 (July 2005) Click here to download this paper now for $25 PDF (744K) View License Agreement ISSN: 1546-962X Page Count: 13 Modeling the Effects of Oversize Solute Additions on Radiation-Induced Segregation in Austenitic Stainless Steels Hackett, MJ Graduate Student, University of Michigan, MI Was, GS Professor, University of Michigan, MI Simonen, EP Staff Scientist, Pacific Northwest National Laboratory, WA Abstract Oversize solute additions to stainless steels hold promise for reducing radiation-induced segregation (RIS), possibly delaying the onset and severity of irradiation-assisted stress-corrosion cracking (IASCC). The Modified Inverse Kirkendall (MIK) model for RIS in austenitic stainless steels was adapted to include the effects of defect trapping, which is expected to be caused by oversized solutes, on RIS. The model accounts for the sensitivity of RIS to both dose rate and temperature. Model results show that the primary contribution to the reduction in RIS occurs through vacancy trapping and recombination with migrating interstitials, requiring strong solute binding energies on the order of 1.0 eV. The maximum reduction in RIS due to defect trapping increases with dose rate and temperature. The general trends of the model are consistent with experimental data from proton and neutron irradiations. Keywords: modeling, segregation, oversize solute addition, grain boundary, austenitic stainless steel, chromium, vacancy, interstitial Paper ID: JAI12402 DOI: 10.1520/JAI12402 ASTM International is a member of CrossRef. Author Title Modeling the Effects of Oversize Solute Additions on Radiation-Induced Segregation in Austenitic Stainless Steels Symposium Effects of Radiation on Materials: 22nd International Symposium, 2004-06-10 Committee E10