%0 Journal Article
%T Cu-Cr粉体致密化颗粒变形及粒子流动三维数值模拟
Three-dimensional numerical simulation of deformation and particle flow of Cu-Cr powder densified particles
%A 王永滨
%A 王发展
%A 王雁琨
%A 李亚峰
%A 杜文刚
%J 复合材料学报
%D 2019
%R 10.13801/j.cnki.fhclxb.20190109.001
%X 基于MSC.Marc有限元软件对Cu-Cr粉体颗粒的单、双向致密化过程进行了细观数值模拟分析。研究了不同压制方式及摩檫系数对Cu-Cr粉体颗粒致密度及形貌变化的影响。结果表明:随着摩擦系数的增大,单向压制Cu-Cr粉体颗粒的致密化程度越高,摩擦系数为0.5时,单向压制的Cu-Cr粉体颗粒最高致密度为96.4040%;随着摩擦系数的减小,双向压制Cu-Cr粉体颗粒的致密化程度越高,在无摩擦理想条件下,双向压制Cu-Cr粉体颗粒致密度最高为89.1630%。在相同条件(摩擦系数、压制力)下,单向比双向压制Cu-Cr粉体颗粒有较高的流动性和致密度,Cu颗粒的应变量差值为1.3385,但双向致密化Cu-Cr粉体颗粒比单向压制的粒度均匀性好。模拟结果与实验结果相符合,验证了模型的准确性。 Based on MSC. Marc finite element software, the densification process of single and two-press Cu-Cr powder particles was microcosmic simulated and analyzed. The effects of different pressing methods and friction coefficients on the particle density and morphology of Cu-Cr powder particles were studied. The results show that with the increase of friction coefficient, the densification degree of unidirectional compacted Cu-Cr powder particles is higher. Under the condition of friction coefficient of 0.5, the maximum density of unidirectional compacted Cu-Cr powder particles is 96.4040%. With the decrease of friction coefficient, the densification degree of the two-way compacted Cu-Cr powder particles is higher. Under ideal condition without friction, the densification of the two-press compacted Cu-Cr powder particles is up to 89.1630%. Under the same conditions (friction coefficient and compressive force), unidirectional compaction has higher fluidity and density than bi-directional compaction, and the strain difference of Cu particles is 1.3385. However, the particle size uniformity of bi-directional compaction is better than that of unidirectional compaction. The simulation results are in agreement with the experimental results, which verifies the accuracy of the model. 株洲冶炼集团股份有限公司产学研重点项目(2040201255
%K Cu-Cr粉体
%K 致密化
%K 摩檫系数
%K 应变
%K 流动性
Cu-Cr powders
%K densification
%K friction coefficient
%K strain
%K fluidity
%U http://fhclxb.buaa.edu.cn/CN/abstract/abstract14658.shtml