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Microstructural Characterization of Metal Foams: An Examination of the Applicability of the Theoretical Models for Modeling Foams, Revision 1

机译：金属泡沫的微观结构表征：泡沫模型理论模型适用性的检验，修订版1

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Establishing the geometry of foam cells is useful in developing microstructure-based acoustic and structural models. Since experimental data on the geometry of the foam cells are limited, most modeling efforts use an idealized three-dimensional, space-filling Kelvin tetrakaidecahedron. The validity of this assumption is investigated in the present paper. Several FeCrAlY foams with relative densities varying between 3 and 15 percent and cells per mm (c.p.mm.) varying between 0.2 and 3.9 c.p.mm. were microstructurally evaluated. The number of edges per face for each foam specimen was counted by approximating the cell faces by regular polygons, where the number of cell faces measured varied between 207 and 745. The present observations revealed that 50 to 57 percent of the cell faces were pentagonal while 24 to 28 percent were quadrilateral and 15 to 22 percent were hexagonal. The present measurements are shown to be in excellent agreement with literature data. It is demonstrated that the Kelvin model, as well as other proposed theoretical models, cannot accurately describe the FeCrAlY foam cell structure. Instead, it is suggested that the ideal foam cell geometry consists of 11 faces with three quadrilateral, six pentagonal faces and two hexagonal faces consistent with the 3-6-2 Matzke cell. A compilation of 90 years of experimental data reveals that the average number of cell faces decreases linearly with the increasing ratio of quadrilateral to pentagonal faces. It is concluded that the Kelvin model is not supported by these experimental data.

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作者
Raj, S. V.;
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年度 2011
页码 1-20
总页数 20
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Acoustic properties ; Foams ; Microstructure ; Models ; Mathematical models ; Polygons ; Edges;

机译：声学特性;泡沫;微观结构;模型;数学模型;多边形;边缘;

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专利

1. Microstructural characterization of metal foams: An examination of the applicability of the theoretical models for modeling foams [J] . S.V.Raj Materials Science and Engineering . 2011,第15期

机译：金属泡沫的微观结构表征：泡沫模型理论模型的适用性检查
2. Microstructural characterization and constitutive modeling of deformation of closed-cell foams based on in situ x-ray tomography [J] . Chai H. W., Xie Z. L., Xiao X. H., International Journal of Plasticity . 2020,第1期

机译：基于原位X射线断层扫描的闭孔泡沫变形的微结构表征及本构模拟
3. Multiscale computational modelling of closed cell metallic foams with detailed microstructural morphological control [J] . Ghazi A., Berke P., Kamel K. Ehab Moustafa, International Journal of Engineering Science . 2019,第OCTa期

机译：具有详细微观结构形态控制的闭孔金属泡沫的多尺度计算模型
4. Experimetal Study and Numerical Modelling of the Effect of Foaming AgentProperties on Foam Flooding in Porous Media in Absence of Oleic Phase [C] . Seyed Mojtaba Hosseini-Nasab, Mohammad Simjoo EAGE Conference and Exhibition . 2018

机译：缺乏油型磷介质泡沫洪水发泡剂性能对多孔介质泡沫洪水的实验研究及数值模拟
5. Numerical integration of constitutive models applicable to metal foams. [D] . Modi, Abhishek. 2004

机译：适用于金属泡沫的本构模型的数值积分。
6. Multi-Scale Modeling for Predicting the Stiffness and Strength of Hollow-Structured Metal Foams with Structural Hierarchy [O] . Yong Yi, Xiaoyang Zheng, Zhibing Fu, 2018

机译：具有结构层次的空心结构金属泡沫的刚度和强度的多尺度建模
7. Microstructural Characterization of Metal Foams: An Examination of the Applicability of the Theoretical Models for Modeling Foams [O] . Raj, S. V. 2011

机译：金属泡沫的微观结构表征：泡沫理论模型的适用性检验

Microstructural Characterization of Metal Foams: An Examination of the Applicability of the Theoretical Models for Modeling Foams, Revision 1

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