多孔铝合金连通孔对压缩性能的影响

材料研究学报, 2009, 23(4): 380-386.

多孔铝合金连通孔对压缩性能的影响

何思渊龚晓路何德坪

1.1.东南大学生物科学与医学工程学院~生物电子学国家重点实验室南京 2100962.法国特鲁瓦工业大学机械系特鲁瓦法国 100003.东南大学材料科学与工程学院~江苏省先进金属材料高技术研究重点实验室　南京　210096>

1.1.State Key Laboratory of Bioelectronics

　School of Biological Science &

Medical Engineering

Nanjing 2100962.Department of mechanics

University of technology of Troyes

　France

Troyes 10000　3.Jiangsu Key Laboratory of Advanced Metallic Materials

School of Material Science and Engineering

Southeast University

Nanjing 210096>

基金项目: 国家重点基础研究发展计划2006CB601201资助项目.

关键词：金属材料 , porous aluminum alloy , interconnected hole , pore structure model , compressive mechanical properties

Effect of “through-hole” on porous aluminum alloy compressive mechanical properties

HE Siyuan GONG Xiaolu HE Deping

Keywords： metallic materials , 多孔铝合金 , 通孔度 , 孔结构模型 , 压缩力学性能

根据多孔铝渗流制备过程中孔结构的形成规律建立了单元模型,　其中改变渗流压力引起的通孔度变化所产生的孔隙率变化规律符合物理模型.　通过对不同孔隙率的孔结构单元模型计算,　结合实验研究了孔隙率变化引起的孔结构变化,　并计算了通孔多孔铝力学性能的影响规律. 结果表明, 模型计算得到的材料弹性模量、塑性变形平台应力与实验结果基本相符, 孔与孔之间通孔度的变化决定了通孔多孔铝的孔隙率变化, 受压缩时在连通孔处的应力集中是其力学性能对孔隙率敏感的直接因素.

In accordance with preparation process of open-cell aluminum foam, a novel simplified model of pore s structure was proposed to exploit the performance of the through-holes, which connect neighboring cells, on the elastic module and compressive collapse stress of porous aluminum alloy. It is shown that the results coincide with experiments in terms of elastic module and plastic collapse stress. Stress concentration neighboring the through-hole between neighboring cells was manifested by unit cell model. On account of significant effect of through-hole’s variation on porosity, the sensitivity of mechanical properties of open-cell aluminum alloy on porosity could be explained by stress concentration on the through-hole between neighboring cells.

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