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A Parameterized Leblond-Devaux Equation for Predicting Phase Evolution during Welding E36 and E36Nb Marine Steels.

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posted on 2023-06-12, 14:36 authored by Jun Fu, GMAM El-Fallah, Qing Tao, Hongbiao Dong
High heat input welding can improve welding efficiency, but the impact toughness of the heat-affected zone (HAZ) deteriorates significantly. Thermal evolution in HAZ during welding is the key factor affecting welded joints' microstructures and mechanical properties. In this study, the Leblond-Devaux equation for predicting phase evolution during the welding of marine steels was parameterized. In experiments, E36 and E36Nb samples were cooled down at different rates from 0.5 to 75 °C/s; the obtained thermal and phase evolution data were used to construct continuous cooling transformation diagrams, which were used to derive the temperature-dependent parameters in the Leblond-Devaux equation. The equation was then used to predict phase evolution during the welding of E36 and E36Nb; the quantitative experimental phase fractions of the coarse grain zone were compared with simulated results to verify the prediction results, which are in good agreement. When heat input is 100 kJ/cm, phases in the HAZ of E36Nb are primarily granular bainite, whereas for E36, the phases are mainly bainite with acicular ferrite. When heat input increases to 250 kJ/cm, ferrite and pearlite form in both steels. The predictions agree with experimental observations.

History

Author affiliation

School of Engineering, University of Leicester

Version

  • VoR (Version of Record)

Published in

Materials (Basel, Switzerland)

Volume

16

Issue

8

Pagination

3150

Publisher

MDPI AG

issn

1996-1944

eissn

1996-1944

Copyright date

2023

Available date

2023-06-12

Spatial coverage

Switzerland

Language

eng

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