Your search keyword '"Sun, Jun"' showing total 2 results

1. Molecular dynamics simulations of ultralow hysteretic behavior in super-elastic shape memory alloys.

Author

Tao, Xuefei, Yang, Yang, Zong, Hongxiang, Ding, Xiangdong, Yu, Kaiyuan, Lookman, Turab, and Sun, Jun

Subjects

*MOLECULAR dynamics, *SHAPE memory alloys, *PHASE transitions, *LOADING & unloading, *METASTABLE states

Abstract

Shape memory alloys (SMAs) that exhibit superelasticity with large recoverable strain and small hysteresis are in demand for practical applications, although their synthesis remains a challenge. We introduce metastable engineering to dope conventional SMA solid-solution atoms of relatively high concentration with "weak" local lattice distortion to realize ultralow hysteretic superelasticity. Large-scale molecular dynamic (MD) simulations of NiTi-based SMAs are performed to demonstrate how the presence of 2 ∼ 4 at.% Nb dopants lead to a stress-induced transition from a metastable pretransitional state to a strain-glass state. This is facilitated by a macroscopically homogeneous and continuous phase transformation in the course of superelastic loading and unloading. This spinodal decomposition-like phase transformation process endows SMAs with anhysteretic superelasticity that is insensitive to loading direction and grain size (below 15 nm). These findings show promise of achieving ultralow hysteretic superelasticity with large recoverable strain for SMAs. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022

2. Diffuse scattering as an indicator for martensitic variant selection.

Author

Gao, Lei, Ding, Xiangdong, Zong, Hongxiang, Lookman, Turab, Sun, Jun, Ren, Xiaobing, and Saxena, Avadh

Subjects

*DIFFUSION, *SCATTERING (Physics), *MARTENSITIC transformations, *DIFFRACTION patterns, *STRAINS & stresses (Mechanics), *MOLECULAR dynamics

Abstract

Abstract: Diffuse scattering is an important precursor phenomenon prior to the martensitic transformation (MT). It is related to the correlated atomic position fluctuations prior to the MT and can provide important hints of the transformation mechanism. However, the role of this precursor phenomenon in the MT is not clear so far. Here we study the evolution of diffraction patterns prior to temperature- and stress-induced MTs and consider the evolution of atomic configurations during the whole MT process, using molecular dynamics simulations on a generic body-centered cubic–hexagonal close-packed transformation as an example. Our results show that, although the diffuse scattering changes with external fields, there exists a general relationship between the transformation pathways, the diffuse scattering streaks and the martensitic products. Two preferred transformation pathways with opposite shuffle directions lead to a single specific diffuse scattering streak prior to the MT and form one pair of anti-variants after the MT. Thus the distribution of diffuse scattering acts as an indicator of the selection of martensitic variants. In addition, we find that the applied stress can change the shear order parameter of the phase transformation, and subsequently determines the preferred transformation pathways and the distribution of diffuse scattering streaks. This work establishes a relationship between the transformation mechanism, the precursor phenomenon and the products after the MT under the influence of external fields. [Copyright &y& Elsevier]

Published

2014