Shear response of β-SiC bulk dependent on temperature and strain rate

被引：0

作者：

Liang Wang

Qunfeng Liu

Wenshan Yu

Shengping Shen

机构：

[1] StateKeyLaboratoryforStrengthandVibrationofMechanicalStructures,SchoolofAerospace,Xi'anJiaotongUniversity

来源：

ActaMechanicaSolidaSinica | 2017年 / 30卷 / 02期

关键词：

β-SiC; Fracture; Temperature effect; Strain rate; Shear deformation;

D O I：

暂无

中图分类号：

TN304.24 [];

学科分类号：

0805 ; 080501 ; 080502 ; 080903 ;

摘要：

The shear responses of β-SiC are investigated using molecular dynamics simulation with the Tersoff interatomic potential. Results show a clear decreasing trend in critical stress,fracture strain and shear modulus as temperature increases. Above a critical temperature, β-SiC bulk just fractures after the elastic deformation. However, below the critical temperature, an interesting pattern in β-SiC bulk emerges due to the elongation of Si-C bonds before fracture. Additionally, the shear deformation of β-SiC at room temperature is found to be dependent on the strain rate. This study may shed light on the deformation mechanism dependent on temperature and strain rate.

引用

页码：137 / 144

页数：8

共 21 条

[1]

The role of point defects in the swelling and elastic modulus of irradiated cubic silicon carbide[J] . Jianqi Xi,Peng Zhang,Chaohui He,Hang Zang,Daxi Guo,Tao Li.Nuclear Inst. and Methods in Physics Research, B . 2015

[2]

Molecular dynamics simulation on double-elastic deformation of zigzag graphene nanoribbons at low temperature[J] . Y.J. Sun,Y.H. Huang,F. Ma,D.Y. Ma,T.W. Hu,K.W. Xu.Materials Science & Engineering B . 2014

[3] Superplastic nanocrystalline ceramics at room temperature and high strain rates [J].

Zhang, J. Y. ;

Sha, Z. D. ;

Branicio, P. S. ;

Zhang, Y. W. ;

Sorkin, V. ;

Pei, Q. X. ;

Srolovitz, D. J. .

SCRIPTA MATERIALIA, 2013, 69 (07) :525-528

[4]

On the large-strain plasticity of silicon nanowires: Effects of axial orientation and surface[J] . Qunfeng Liu,Shengping Shen.International Journal of Plasticity . 2012

[5]

Tensile mechanical behaviors of cubic silicon carbide thin films[J] . Wen-Xiu Wang,Li-Sha Niu,Yang-Yang Zhang,En-Qiang Lin.Computational Materials Science . 2012

[6] Understanding large plastic deformation of SiC nanowires at room temperature [J].

Wang, J. ;

Lu, C. ;

Wang, Q. ;

Xiao, P. ;

Ke, F. J. ;

Bai, Y. L. ;

Shen, Y. G. ;

Liao, X. Z. ;

Gao, H. J. .

EPL, 2011, 95 (06)

[7]

Dynamic behaviour of silicon carbide nanowires under high and extreme strain rates: a molecular dynamics study[J] . H Tsuzuki,J P Rino,P S Branicio.Journal of Physics D: Applied Physics . 2011 (5)

[8] Multiple time scale method for atomistic simulations [J].

Medyanik, Sergey N. ;

Liu, Wing Kam .

COMPUTATIONAL MECHANICS, 2008, 42 (04) :569-577

[9] Direct observation of super-plasticity of beta-SiC nanowires at low temperature [J].

Zhang, Yuefei ;

Han, Xiaodong ;

Zheng, Kun ;

Zhang, Ze ;

Zhang, Xiaona ;

Fu, Jingyong ;

Ji, Yuan ;

Hao, Yajuan ;

Guo, Xiangyun ;

Wang, Zhonglin .

ADVANCED FUNCTIONAL MATERIALS, 2007, 17 (17) :3435-3440

[10]

Handbook of SiC properties for fuel performance modeling[J] . Lance L. Snead,Takashi Nozawa,Yutai Katoh,Thak-Sang Byun,Sosuke Kondo,David A. Petti.Journal of Nuclear Materials . 2007 (1)

← 1 2 3 →