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高体分SiCp/Al复合材料比阻尼能力仿真分析 被引量:1

Damping Capacity Finite Element Analysis of High Volume Fraction Si Cp / Al Composites
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摘要 运用ANSYS软件建立有限元模型,结合胞元法对高体分Si Cp/Al复合材料比阻尼能力进行了研究。结果表明,Si Cp/Al复合材料比阻尼能力值在应变幅值较小时为零,当应变幅值超过临界点后,比阻尼能力值随着应变幅值的增长迅速升高。增强体颗粒形状对Si Cp/Al复合材料比阻尼能力值影响较大,更大的应变和大应变面积会提高比阻尼能力值。Si Cp/Al复合材料模型的平均弹性模量随应变幅值增长而下降的趋势与模型的阻尼能力值随应变幅值增长而增加的趋势表现出相似性。 The damping capacity of high volume fraction SiCp /Al composites is studied by establishing the finite ele-ment model with ANSYS,combined with the unit cell method.The results show that the damping capacity value of SiCp /Al composites is zero when the strain amplitude is small.However,when strain amplitude is over the critical point,the damping capacity value increases rapidly with the growth of strain amplitude.The reinforcing particle shape has large influ-ence on the damping capacity value of SiCp /Al composites,and larger strain and more large strain area can improve the damping capacity value.The average elastic modulus of SiCp /Al composite model declines when strain amplitude grows, which shows the similarity with the tendency that the damping capability of the model increases as the strain amplitude grows.
作者 董伟亮 黄树涛 焦可茹 许立福
机构地区 沈阳理工大学
出处 《工具技术》 2014年第11期8-12,共5页 Tool Engineering
基金 国家自然科学基金(51275316)
关键词 SICP/AL复合材料 比阻尼能力 有限元 胞元 SiCp /Al composites damping capacity finite element unit cell
分类号 TB33 [一般工业技术—材料科学与工程]
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参考文献13

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工具技术
2014年 第11期

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