Pengyang Zhao scite author profile

Many time-dependent deformation processes at elevated temperatures produce significant concurrent microstructure changes that can alter the mechanical properties in a profound manner. Such microstructure evolution is usually absent in mesoscale deformation models and simulations. Here we present an integrated full-field modeling scheme that couples the mechanical response with the underlying microstructure evolution. As a first demonstration, we integrate a fast Fourier transform-based elasto-viscoplastic (FFT-EVP) model with a phase-field (PF) recrystallization model, and carry out three-dimensional simulations of dynamic recrystallization (DRX) in polycrystalline copper. A physics-based coupling between FFT-EVP and PF is achieved by (1) adopting a dislocation-based constitutive model in FFT-EVP, which allows the predicted dislocation density distribution to be converted to a stored energy distribution and passed to PF, and (2) implementing a stochastic nucleation model for DRX. Calibrated with the experimental DRX stress-strain curves, the integrated model is able to deliver full-field mechanical and microstructural information, from which quantitative description and analysis of DRX can be achieved. It is suggested that the initiation of DRX occurs significantly earlier than previous predictions, due to heterogeneous deformation. DRX grains are revealed to form at both grain boundaries and junctions (e.g., quadruple junctions) and tend to grow in a wedge-like fashion to maintain a triple line (not necessarily in equilibrium) with old grains. The resulting stress redistribution due to strain compatibility is found to have a profound influence on the subsequent dislocation evolution and softening.

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Direct determination of structural heterogeneity in metallic glasses using four-dimensional scanning transmission electron microscopy

Chen

Johnson

et al. 2018

Ultramicroscopy

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Extended defects, ideal strength and actual strengths of finite-sized metallic glasses

Zhao

Wang

2014

Acta Materialia

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Microstructural and micromechanical evolution during dynamic recrystallization

Zhao

Wang

Niezgoda

2018

International Journal of Plasticity

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Pengyang Zhao

Heterogeneously randomized STZ model of metallic glasses: Softening and extreme value statistics during deformation

An integrated full-field model of concurrent plastic deformation and microstructure evolution: Application to 3D simulation of dynamic recrystallization in polycrystalline copper

Direct determination of structural heterogeneity in metallic glasses using four-dimensional scanning transmission electron microscopy

Extended defects, ideal strength and actual strengths of finite-sized metallic glasses

Microstructural and micromechanical evolution during dynamic recrystallization

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