Residual stress on the run out table accounting for multiphase transitions and transformation induced plasticity
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Publication:2295905
DOI10.1016/J.APM.2018.02.026zbMath1480.74243OpenAlexW2791955136WikidataQ130118977 ScholiaQ130118977MaRDI QIDQ2295905
Thomas Koedinger, Daniel Weisz-Patrault
Publication date: 17 February 2020
Published in: Applied Mathematical Modelling (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.apm.2018.02.026
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An implicit integration scheme with consistent tangent modulus for Leblond's model of transformation-induced plasticity in steels ⋮ Analysis of lateral metal flow-induced flatness deviations of rolled steel strip: mathematical modeling and simulation experiments
Uses Software
Cites Work
- FEM analysis for residual stress prediction in hot rolled steel strip during the run-out table cooling
- A theoretical and numerical approach to the plastic behaviour of steels during phase transformations. I: Derivation of general relations. II: Study of classical plasticity for ideal-plastic phases
- A micromechanical modeling of the Greenwood--Johnson mechanism in transformation induced plasticity.
- Prediction of temperature distribution and phase transformation on the run-out table in the process of hot strip rolling
- Implicit finite element formulations for multi-phase transformation in high carbon steel
- Nonlinear and multiphysics evaluation of residual stresses in coils
- Hot and cold strip rolling processes
- Study on film boiling heat transfer for water jet impinging on high temperature flat plate
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