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Indentation size effect in steels with different carbon contents and microstructures

Soumya Sourav Sarangi, Avala Lavakumar, Prince Kumar Singh, Prvan Kumar Katiyar, R.K. Ray

2022Materials Science and Technology11 citationsDOI

Abstract

Indentation Size Effect (ISE) in steels having a wide spectrum of carbon (C) concentrations (wt-%) 0.002 (interstitial-free), 0.07 (microalloyed), 0.19 (low carbon), 0.32 (medium carbon), and 0.7 (high carbon), and microstructures were investigated using Vickers micro-hardness tester. A decrease in micro-hardness with increasing load, i.e. ISE, is observed in all the samples except microalloyed steel. The empirical relations, such as the Nix and Gao model, Minimum Resistance model, and Proportional Specimen Resistance (PSR) model, were used to determine the load-independent or true hardness values. Nix and Gao model was adopted to determine the plastically deformed zone (PDZ) size under the indenter and subsequently correlated with ISE in the materials. It is observed that ISE is absent when the PDZ size becomes comparable to or larger than the grain size of the material.

Topics & Concepts

Materials scienceGrain sizeMicrostructureCarbon fibersIndentationVickers hardness testMetallurgyCarbon steelComposite materialNanoindentationIndentation hardnessCorrosionComposite numberMetal and Thin Film MechanicsMicrostructure and Mechanical Properties of SteelsHydrogen embrittlement and corrosion behaviors in metals