Rate dependent rheological stress-strain behavior of porous nanocrystalline materials
To completely understand the rate-dependent stress-strain behavior of the porous nanocrystalline materials, it is necessary to formulate a constitutive model that can reflect the complicated experimentally observed stress-strain relations of nanocrystailine materials. The nanocrystalline materials consisting grain interior and grain boundary are considered as viscoplastic and porous materials for the reasons that their mechanical deformation is commonly governed by both islocation glide and diffusion, and pores commonly exist in the nanocrystalline materials. A constitutive law of the unified theory reflecting the stress-strain relations was established and verified by experimental data of bulk nanocrystalline Ni prepared by hydrogen direct current arc plasma evaporation method and hot ompression. The effect of the evolution of porosity on stress-strain relations was taken into account to make that the predicted results can keep good agreements with the corresponding experimental results.
stress-strain porous nanocrystalline materials rate dependent porosity
LI Hui(李慧) ZHOU Jian-qiu(周剑秋)
School of Mechanical and Power Engineering, Nanjing University of Technology, Nanjing 210009, China
国际会议
长沙
英文
21-24
2008-09-28(万方平台首次上网日期,不代表论文的发表时间)