@inproceedings{c8859b3576b04b15a4448de0887bc084,
title = "Crystal plasticity finite-element simulation of single phase titanium alloy with 3D polycrystalline models",
abstract = "Based on the rate-dependent crystal plasticity theory, a finite element code which considers crystallographic slip as deformation mechanism of material was developed to investigate the stress-strain response of the β phase of Ti-5553 during uniaxial tension. Three dimensional models with random grain shapes generated by Voronoi tessellation were used for simulations, and two discretization methods were used to disperse the models. Firstly, the parameters of material were identified by fitting simulation stress-strain curves with experimental data. Then the global stress-strain curves were calculated, and effects of mesh type and mesh density were discussed. Results show that mesh type has a relatively significant influence on overall responses, whereas the influence of mesh density is slight. Investigate of local stress-strain response in each grain was also conducted, and obvious inter-granular heterogeneities were observed. Quantitative analysis indicates that the range of stress and strain variations is affected by mesh type.",
keywords = "Crystal plasticity, Mesh type, Stress-strain response, Voronoi tessellation",
author = "Shao Xie and Bin Tang and Yi Liu and Han, {Feng Bo} and Kou, {Hong Chao} and Li, {Jin Shan}",
year = "2014",
doi = "10.4028/www.scientific.net/MSF.789.608",
language = "英语",
isbn = "9783038350897",
series = "Materials Science Forum",
publisher = "Trans Tech Publications Ltd",
pages = "608--615",
booktitle = "Nano-Scale Materials, Materials Processing and Genomic Engineering",
note = "12th IUMRS International Conference on Advanced Materials, IUMRS-ICAM 2013 ; Conference date: 22-09-2013 Through 28-09-2013",
}