Materials Research Letters (Jul 2025)

Irradiation-assisted pseudoelasticity in 316L stainless steel through dislocation loop-controlled martensitic phase transformations

  • Arya Chatterjee,
  • Yu Lu,
  • Soumita Mondal,
  • Yaqiao Wu,
  • Janelle P. Wharry

DOI
https://doi.org/10.1080/21663831.2025.2509783
Journal volume & issue
Vol. 13, no. 7
pp. 749 – 758

Abstract

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We present pseudoelasticity activated by neutron irradiation in 316L austenitic stainless steel. Wrought and powder metallurgy with hot isostatic pressing (PM-HIP) specimens are irradiated to ∼4 displacements per atom at ∼400°C, then nanoindented. In wrought 316L, irradiation-induced voids and dislocation loops provide mechanical energy for γ→α′ martensitic transformation. But lower loop density in PM-HIP 316L changes the martensitic transformation pathway to reversible γ↔ε, enabling pseudoelasticity. Loops induce ε-martensite formation through compressive strain, with tensile strain driving ε-martensite growth. Strain recovery in PM-HIP 316L is superior to that in Fe-based shape memory alloys, providing promise for irradiation-engineered pseuoelasticity in austenitic steels.

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