Materials Research (Feb 2021)

Failure Prediction of AISI 420 Martensitic Stainless Steel Using the Theory of Critical Distances

  • Marcelo de Oliveira Siqueira,
  • Eduardo Atem de Carvalho

DOI
https://doi.org/10.1590/1980-5373-mr-2020-0494
Journal volume & issue
Vol. 23, no. 6

Abstract

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This work aims to evaluate the capability of the theory of critical distances (TCD) to predict the static failure of U-notched AISI 420 martensitic stainless steel specimens with different geometric features under pure bending loading. Theoretical estimates of the stress intensity factor during fracture onset were calculated according to the line (LM) and point methods (PM), which consider the characteristic length L, inherent strength σ0, and notch tip radius ρ. Initially, L and σ0 were determined on the basis of the material’s properties (i.e., fracture toughness KIc and ultimate tensile strength σu,t), resulting in imprecise estimates. Conversely, L and σ0 determined using the appropriate analysis of linear–elastic stress fields ahead of notches with different sharpness provided highly accurate predictions. The microscopic study of fractured specimens ensured better comprehension of the results. Moreover, the accurate values of L and σ0 were used to predict the failure of V-notched specimens.

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