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Ultrafine Pearlitic Transformation Behavior of 2000 MPa Ultra‐High‐Strength Steel Wire Under Nb Microalloying

Jie Zhou, Feng Hu, Kaiming Wu, Lulu Feng, Dong Zhang, Songbo Zhou

2020steel research international25 citationsDOI

Abstract

The influence of Nb in the transformation behavior of ultra‐high‐strength pearlitic steels is studied. The phase transition temperature is measured by thermal simulation device, and the continuous cooling transformation curve is established. Results show that with addition of Nb, the equilibrium transformation temperature of the test steel increases, and both size of the original austenite, pearlite colonies and pearlite lamellar spacing are refined. Pearlitic transformation mechanism has changed by the addition of Nb through the interaction of solid solution and precipitation. Nb microalloy delays the beginning and ending point of pearlite transformation when the cooling rate is greater than 1.00 and 0.10 °C s −1 , respectively. In contrast, the transformation point is advanced when the cooling rate is less than 0.50 and 0.05 °C s −1 . This variation is mainly due to the morphology and distribution of Nb‐containing precipitates at different cooling rates.

Topics & Concepts

PearliteMaterials scienceContinuous cooling transformationAusteniteLamellar structureMetallurgyPrecipitationCooling curveTransformation (genetics)Phase (matter)Composite materialMicrostructureBainiteBiochemistryGeneMeteorologyOrganic chemistryChemistryPhysicsMicrostructure and Mechanical Properties of SteelsMagnetic Properties and ApplicationsMetallurgy and Material Forming
Ultrafine Pearlitic Transformation Behavior of 2000 MPa Ultra‐High‐Strength Steel Wire Under Nb Microalloying | Litcius