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The Influence of Precipitate Morphology on the Growth of Austenite Grain in Nb-Ti-Al Microalloyed Steels

Junfeng Yuan, Yang Xiao, Na Min, Wei Li, Sixin Zhao

2022Materials20 citationsDOIOpen Access PDF

Abstract

The present study investigates the morphological evolution of carbonitrides and the effect of these precipitates on grain boundary pinning during pseudo-carburizing a Nb-Ti-Al microalloyed steel. The result indicated that three kinds of complex precipitates with different morphologies containing Nb, Ti, and Al respectively were observed in samples austenitized at different temperatures and times. The NbC and TiN precipitates played an important role in pinning grain boundaries and suppressing the growth of austenite grains, relying on the high thermal stability of TiN precipitates and small size of NbC precipitates. The precipitate characteristics affected the size of austenite grain. Based on the Zener pinning model, the effect of precipitate characteristic on austenite grain size was quantitatively analyzed. It is found that the existence of NbC and TiN precipitated at high temperature makes austenite grain growth difficult when austenite grain boundaries were pinned by fine and diffused precipitates.

Topics & Concepts

Materials scienceAusteniteMetallurgyGrain boundaryTinPrecipitationGrain growthZener pinningMicroalloyed steelMorphology (biology)Grain sizePinning forceMicrostructureCondensed matter physicsPhysicsGeneticsCritical currentBiologySuperconductivityMeteorologyMicrostructure and Mechanical Properties of SteelsHydrogen embrittlement and corrosion behaviors in metalsMetallurgy and Material Forming
The Influence of Precipitate Morphology on the Growth of Austenite Grain in Nb-Ti-Al Microalloyed Steels | Litcius