Dynamic Ferrite Formation and Evolution above the Ae<sub>3</sub> Temperature during Plate Rolling Simulation of an API X80 Steel
Francisco Romário de S. Machado,
João C. Ferreira,
Maria Veronica G. Rodrigues,
Marcos Natan da S. Lima,
Rodrigo de C. Paes Loureiro,
Fulvio Siciliano,
Eden S. Silva,
Gedeon S. Reis,
Regina C. de Sousa,
Clodualdo Aranas,
Hamilton F. Gomes de Abreu,
Samuel Filgueiras Rodrigues
Affiliations
Francisco Romário de S. Machado
Graduate Program in Materials Engineering, Federal Institute of Maranhão, São Luís 65075-441, Brazil
João C. Ferreira
Graduate Program in Materials Engineering, Federal Institute of Maranhão, São Luís 65075-441, Brazil
Maria Veronica G. Rodrigues
Graduate Program in Materials Engineering, Federal Institute of Maranhão, São Luís 65075-441, Brazil
Marcos Natan da S. Lima
Materials Characterization Laboratory (LACAM), Department of Metallurgical and Materials Engineering, Federal University of Ceará, Campus Do Pici, Bloco 729, Fortaleza 60020-181, Brazil
Rodrigo de C. Paes Loureiro
Materials Characterization Laboratory (LACAM), Department of Metallurgical and Materials Engineering, Federal University of Ceará, Campus Do Pici, Bloco 729, Fortaleza 60020-181, Brazil
Fulvio Siciliano
Market Development, Dynamic Systems Inc., 323 NY 355, Poestenkill, NY 12140, USA
Eden S. Silva
Graduate Program in Materials Engineering, Federal Institute of Maranhão, São Luís 65075-441, Brazil
Gedeon S. Reis
Graduate Program in Materials Engineering, Federal Institute of Maranhão, São Luís 65075-441, Brazil
Regina C. de Sousa
Department of Physics, Federal University of Maranhão–UFMA, Av. dos Portugueses, University City, 1966, Bacanga, São Luís 65080-805, Brazil
Clodualdo Aranas
Mechanical Engineering Department, University of New Brunswick, Fredericton, NB E3B 5A3, Canada
Hamilton F. Gomes de Abreu
Materials Characterization Laboratory (LACAM), Department of Metallurgical and Materials Engineering, Federal University of Ceará, Campus Do Pici, Bloco 729, Fortaleza 60020-181, Brazil
Samuel Filgueiras Rodrigues
Graduate Program in Materials Engineering, Federal Institute of Maranhão, São Luís 65075-441, Brazil
Thermo-mechanically controlled rolling is a technique used to produce steel strips and plates. One of the steels widely used in the production of heavy plates for application in oil and gas pipelines is API X80. The hot rolling process of this family of steels consists of applying deformation passes at high temperatures, mainly above Ae3, inside the austenite phase field. It has been shown that during deformation, the phenomenon of dynamic transformation (DT) of austenite into ferrite leads to lower hot deformation resistance within the stable austenite region. In this investigation, hot torsion simulations of an industrial rolling process under continuous cooling conditions were used to monitor the formation of ferrite by DT. Stress–strain flow curves and equivalent mean flow stresses followed by sample characterization via optical and electron microscopy showed the inevitable formation of ferrite above the Ae3. The employed 10-pass deformation schedule was divided into 5 roughing and 5 finishing passes, thereby promoting an increased volume fraction of ferrite and decreased critical strain for the onset of DT and dynamic recrystallization (DRX). A microstructural analysis confirmed the formation of ferrite from the first roughing strain until the last finishing pass. The volume fraction of DT ferrite increased due to strain accumulation, an increased number of deformation passes and as the temperature approached the Ae3, leading to a characteristic torsion texture at the end of the simulation.