The nonlinear elastic behavior of crystalline solids: An atomistic simulation study

Wen Yu-Hua; Zhang Yang; Zhu Zi-Zhong

doi:10.7498/aps.57.1834

Abstract
In this paper, we employ molecular static approach with quantum corrected Sutten-Chen many-body potential to study the elastic responses of nickel monocrystal subjected to uniaxial tensile and compressive loading, and consider three different loadings, i.e., the ［001］, ［011］ and ［111］ loding. The simulated results show that strong nonlinear effects are found in the elastic behavior of monocrystal under the ［011］ loading, while the lateral deformations are essentially isotropic under ［100］ and ［111］ loadings. The further discussions are focused on the dependence of the Young's moduli and Poisson's ratios on the applied strain, and a brief comparison with first-principles calculations is also presnted.

Keywords:
crystal /

elastic deformation /

molecular static approach
Authors and contacts
Wen Yu-Hua¹,

Zhang Yang²,

Zhu Zi-Zhong²

(1)兰州理工大学甘肃省有色金属新材料国家重点实验室，兰州 730050;厦门大学物理系，厦门大学理论物理与天体物理研究所，厦门 361005; (2)厦门大学物理系，厦门大学理论物理与天体物理研究所，厦门 361005
References

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Vol. 57, Issue 3 - 2008-02-05

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The nonlinear elastic behavior of crystalline solids: An atomistic simulation study

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