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Meeting MS&T21: Materials Science & Technology
Symposium Deformation-induced Phase Transformations
Presentation Title Influence of 3D Microstructure on Deformation-induced Martensitic Transformation Studied by In Situ High-energy Diffraction Microscopy and Crystal Plasticity Modeling
Author(s) Ye Tian, Xiaohui Tu, He Liu, Ming Guan, Peter Kenesei, Jun-Sang Park, Robert Suter, Todd Hufnagel
On-Site Speaker (Planned) Ye Tian
Abstract Scope Transformation-induced plasticity (TRIP) can increase the work-hardening rate and enhance stability of plastic flow in steels through a deformation-induced martensitic transformation. The relationship between microstructure and the martensitic transformation has been extensively investigated, but additional insights can be obtained from high-energy x-ray diffraction microscopy (HEDM) which provides information about 3D microstructure and strain states. These data enable connections to crystal plasticity models representing the evolution of morphology, crystallography, and anisotropy. In this work, we investigate the deformation-induced martensitic transformation in metastable austenitic Fe-Cr-Ni alloys using in situ HEDM during tensile loading. We track the microstructure evolution and grain-averaged strain tensors, and use these data to inform and validate a crystal plasticity model that accounts for the activation of dislocation-driven and transformation-induced deformation mechanisms and volumetric changes. The validated model is used to study the competition between slip and transformation and the influence of microstructure on martensite formation.

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Accounting for Phase Transformation in Plastic Anisotropy Modeling of SS316L
Analysis of Stress State of Plastic Medium Influence on Structural Transformations in Low-alloy Steels
Ausforming of Ferrium M54 Ultra-high Strength Steel
Engineering Microstructures for Conventionally and Additively Manufactured Ni-based Superalloys
Influence of 3D Microstructure on Deformation-induced Martensitic Transformation Studied by In Situ High-energy Diffraction Microscopy and Crystal Plasticity Modeling
Intrinsic Coupling between Deformation Twinning and Phase Transformation in NiTi Shape Memory Alloys and Metastable Beta Ti-alloys
Localized Phase Transformation at Stacking Faults and the Corresponding Alloy Design Strategy
P1-18: Bimetallic Billets for Magnesium-thermal Production of High Quality Sponge Titanium
P1-19: High-cut Steel Property Researches For Taps’ Manufacture
Solid Phase Plasticity Mechanisms in Metals and Rocks during Shear Deformation
Wire Size Effect on the Nucleation of Fatigue Cracks Near Non-metallic Inclusions in Superelastic Nitinol

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