摘要
Different material properties leads to different metal fracture behaviors. Even if the powder material is composed of plastic metal, the fracture still does not show macroscopic plastic deformation characteristics if the material contains a large number of voids. Eight node isoparametric elastic plastic finite element method was used to simulate the tensile process of sintered powder material. By setting a number of voids in the analyzed metal cuboid, the initial density was taken into consideration. The material properties of the three dimensional solid for the tensile simulation were defined with reference to the known pure iron material parameters. The load displacement curves during elongation were obtained with a universal testing machine, and then the simulated curves were compared with the experimental results. The factors that cause the stress concentration and strength decrease were analyzed according to the simulated equivalent von Mises stress distribution.
Different material properties leads to different metal fracture behaviors. Even if the powder material is composed of plastic metal, the fracture still does not show macroscopic plastic deformation characteristics if the material contains a large number of voids. Eight node isoparametric elastic plastic finite element method was used to simulate the tensile process of sintered powder material. By setting a number of voids in the analyzed metal cuboid, the initial density was taken into consideration. The material properties of the three dimensional solid for the tensile simulation were defined with reference to the known pure iron material parameters. The load displacement curves during elongation were obtained with a universal testing machine, and then the simulated curves were compared with the experimental results. The factors that cause the stress concentration and strength decrease were analyzed according to the simulated equivalent von Mises stress distribution.
出处
《中国有色金属学会会刊:英文版》
CSCD
2002年第6期1099-1102,共4页
Transactions of Nonferrous Metals Society of China
基金
Keyproject(5 0 13 5 0 2 0 )supportedbytheNationalNaturalScienceFoundationofChina
project(2 0 0 1AA3 3 70 10 )bytheNationalAdvancedTechnologyResearchandDevelopmentproject
project([2 0 0 1]No .1)bytheMinistryofEducation(Excellentpersonfor2 1stCent
关键词
有限元方法模拟
张力
粉末烧结
离子基材料
Finite element method simulation
tension
sintered powder material
