Influence of axial and torsional cyclic loading on the fatigue behavior of 304LN stainless steel using solid and hollow specimens

Dey, R and Tarafder, Soumitra and Sivaprasad, S (2018) Influence of axial and torsional cyclic loading on the fatigue behavior of 304LN stainless steel using solid and hollow specimens. Mechanics of Materials, 122 (IF-2.651). pp. 58-68.

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Abstract

Effect of loading path and geometry on fatigue behavior was evaluated for 304LN stainless steel using solid and thin walled hollow specimens. Hollow specimens were subjected to both axial and shear loading under strain control. Solid specimens were used only for strain controlled axial loading. Fatigue life was highest for shear loading despite the higher stress response and the least for the axial loading for hollow specimens. The cyclic deformation behavior marked by Masing behavior, cyclic stress strain curves and probability density function analysis was found to be remarkably different for shear loading. All disparities in the cyclic deformation behavior due to difference in loading path has been accounted by the dislocation dynamics and martensitic transformation investigated through TEM.

Item Type:Article
Official URL/DOI:http://10.1016/j.mechmat.2018.03.012
Uncontrolled Keywords:Induced martensitic-transformation; deformation-induced martensite; dual-phase steels; plastic-deformation; 304-stainless-steel; temperature; stress; growth; damage
Divisions:Material Science and Technology
ID Code:7815
Deposited By:Sahu A K
Deposited On:22 Jun 2018 17:21
Last Modified:22 Jun 2018 17:21
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