Your search keyword '"ratcheting effect"' showing total 2 results

1. 基于晶体塑性有限元法的316LN 不锈钢 单轴力学行为.

Author

陈小辉, 陈天祥, 朱琳, and 郎朗

Subjects

*VORONOI polygons, *FINITE element method, *STAINLESS steel, *DEFORMATIONS (Mechanics), *CRYSTALS

Abstract

To describe the uniaxial mechanical behavior of 316LN stainless steel more accurately, a polycrystalline cyclic plasticity constitutive model is constructed based on the Ahmadzadeh-Varvani (A-V) kinematic hardening rule in the framework of the rate‑dependent crystal plasticity theory. The constitutive model is implemented to the finite element software ABAQUS through the UMAT, and a two‑dimensional polycrystalline finite element model is established through Voronoi diagrams. And then the deformation behavior of 316LN stainless steel is simulated under different loading rates, strain cycles and asymmetric stress cycles, respectively. The simulated results compared with the experimental data show that under the uniaxial tensile condition, the stress errors of both fluctuate around±0. 9%, and the maximum stress error is only 1. 9%; under the strain cycle condition, the maximum stress error between the two appears in the 5th cycle, with 11. 4% and 12. 2% errors in the tensile and compression phases, respectively, and 7. 4% and 7. 9% errors in the tensile and compression phases, respectively, after cycle stabilization. Under the asymmetric stress cycle condition, the errors of both mainly appear in the hysteresis loop width, the simulated hysteresis loop width is narrower, but the error of the hysteresis loop evolution trend is smaller. [ABSTRACT FROM AUTHOR]

Published

2024

2. Abdel-Karim-Ohno模型改进及Z2CDN18.12N不锈钢棘轮效应预测.

Author

陈小辉, 刘明月, 刘世纪, and 田育松

Subjects

*AUSTENITIC stainless steel, *STRAINS & stresses (Mechanics), *SURFACE strains, *SURFACE hardening, *VISCOPLASTICITY, *PLASTICS

Abstract

In order to better describe the uniaxial ratcheting behavior of Z2CDN18.12N austenitic stainless steel, the Abdel-Karim-Ohno model was improved under the framework of the unified viscoplastic cyclic constitutive theory. By introducing a plastic strain memory surface into the isotropic hardening rule, the model parameters were determined. Further, the Abdel-Karim-Ohno model and the improved Abdel-Karim-Ohno model were used to predict the uniaxial ratcheting effect behavior of Z2CDN18.12N austenitic stainless steel at the room temperature. The influences of mean stress, stress amplitude, stress rate and loading history on the uniaxial ratcheting strain of Z2CDN18.12N austenitic stainless steel were studied by the two models, respectively. The uniaxial ratcheting strain level increased with the increasing mean stress and stress amplitude, decreased with the increasing stress rate, being more sensitive to the lower stress rate, and the loading history had great influence on the ratcheting behavior. Comparison of the prediction results of the two models with the experimental data proved the effectiveness of the improved model. [ABSTRACT FROM AUTHOR]

Published

2023