A Transition State Theory-Based Continuum Plasticity Model Accounting for the Local Stress Fluctuation

A Transition State Theory-Based Continuum Plasticity Model Accounting for the Local Stress Fluctuation

Based on the transition state theory, a continuum plasticity theory is developed for metallic materials. Moreover, the nature of local stress fluctuation within a material point is considered by incorporating the probability distribution of the stresses. The model is applied to investigate the mecha...

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Bibliographic Details
Main Authors: Yongjia Zheng, Hongwei Wang, Xiangyu Zhou, Ding Tang, Huamiao Wang, Guoliang Wang, Peidong Wu, Yinghong Peng, Yaodong Jiang
Format: Article
Language:English
Published: MDPI AG 2024-10-01
Series:Metals
Subjects:
transition state theory
continuum plasticity
dislocation density
stress fluctuation
Bauschinger effect
Online Access:https://www.mdpi.com/2075-4701/14/11/1228
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Summary:Based on the transition state theory, a continuum plasticity theory is developed for metallic materials. Moreover, the nature of local stress fluctuation within a material point is considered by incorporating the probability distribution of the stresses. The model is applied to investigate the mechanical behaviors of 316 L stainless steel under various loading cases. The simulated results closely match the results obtained by the polycrystal plasticity model and experiments. The mechanical behaviors associated with strain rate sensitivity, temperature dependence, stress relaxation, and strain creep are correctly captured by the model. Furthermore, the proposed model successfully characterizes the Bauschinger effect, which is challenging to capture with a conventional continuum model without additional assumptions. The proposed model could be further employed in the design, manufacturing, and service of engineering components.
ISSN:2075-4701

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