Dislocation channel broadening–A new mechanism to improve irradiation-assisted stress corrosion cracking resistance of additively manufactured 316 L stainless steel

Author:

Yang Jingfan,Hawkins Laura,Shang Zhongxia,McDermott Evan A.,Tsai Benson Kunhung,He Lingfeng,Lu Yu,Song Miao,Wang Haiyan,Lou Xiaoyuan

Funder

Office of Nuclear Energy

Laboratory Directed Research and Development

U.S. Department of Energy

University of Michigan

Idaho National Laboratory

U.S. Nuclear Regulatory Commission

Publisher

Elsevier BV

Reference84 articles.

1. Thermal stability and microstructural evolution of additively manufactured 316 L stainless steel by laser powder bed fusion at 500-800 °C;Yin;Addit. Manuf.,2021

2. On the thermal coarsening and transformation of nanoscale oxide inclusions in 316 L stainless steel manufactured by laser powder bed fusion and its influence on impact toughness;Deng;Mater. Sci. Eng. A,2022

3. Oxide inclusions in laser additive manufactured stainless steel and their effects on impact toughness and stress corrosion cracking behavior;Lou;J. Nucl. Mater.,2018

4. On the origin of the high tensile strength and ductility of additively manufactured 316 L stainless steel: multiscale investigation;Barkia;J. Mater. Sci. Technol.,2020

5. Microstructure and high temperature tensile properties of 316 L fabricated by laser powder-bed fusion;Dryepondt;Addit. Manuf.,2021

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