Effect of Fe additive on plastic deformation for crush-boxes with closed-cell metal foams, Part I: Al-composite foam compression response
Authors
Abstract:
AbstractIn this paper, we investigate effect of Fe–intermetallic compounds on plastic deformation of closed-cell composite Aluminum Foam as filler of thin-walled tubes. However, deformation of the Aluminum foam-filled thin-walled tubes as crushed-box will be presented in Part (II). Composite foams of AlSi7SiC3 and AlSi7SiC3-(Fe) as closed cell were synthesized by powder metallurgy foaming method. Macro and Micro structures of the produced foams revealed a non-homogenous cell dependent on Fe-rich intermetallic compounds. The cellular structure of AlSi7SiC3 foam shows a non-uniform and small size of bubbles with a few central big voids in comparison with the AlSi7SiC3-(Fe) foams. Analysis of EDAX results show, there are (α+β)-Fe- intermetallic compound within foams with Fe < 2 wt. %, and (α+δ)-Fe-intermetallic compound for the foams with Fe > 2 wt. %, which presence of them, depended on the cooling rate during solidification of liquid foams. The uniaxial compressive stress–strain curves of the filled thin-walled tubs with the composite closed cell foams will be investigated in next part. The stress-strain curve of the AlSi7SiC3 foam shows a smooth plastic deformation behavior in the plastic region, throughout the compression tests. However with increasing the weight percent of Fe from 1 up to 3%, the curve shows some variety at the slope of curves within the plastic zone. Results shown all of the compression response is due to the micro-porosity in plateau region and presence of the Fe-Al-Si-intermetallic within the cells wall that both them have the role of a stress concentration point during compressive loading.
similar resources
The Effect of Fe Additive on Plastic Deformation for Crush-Boxes with Closed-Cell Metal Foams, Part II: Al-Composite Foam-Filled brass tubes Compression Response
The brass tubes with foam cores of AlSi7SiC3, AlSi7SiC3Fe1 and AlSi7SiC3Fe3 were produced as the crush-boxes with circle and square cross-section. Then axial compressive behavior and energy absorption capability of the foam-filled tubes were investigated during the quasi-static progressive plastic buckling. The uniaxial compressive stress–strain curves of the foam-filled brass tubes exhibited t...
full texteffect of fe additive on plastic deformation for crush-boxes with closed-cell metal foams, part i: al-composite foam compression response
abstractin this paper, we investigate effect of fe–intermetallic compounds on plastic deformation of closed-cell composite aluminum foam as filler of thin-walled tubes. however, deformation of the aluminum foam-filled thin-walled tubes as crushed-box will be presented in part (ii). composite foams of alsi7sic3 and alsi7sic3-(fe) as closed cell were synthesized by powder metallurgy foaming metho...
full textthe effect of fe additive on plastic deformation for crush-boxes with closed-cell metal foams, part ii: al-composite foam-filled brass tubes compression response
the brass tubes with foam cores of alsi7sic3, alsi7sic3fe1 and alsi7sic3fe3 were produced as the crush-boxes with circle and square cross-section. then axial compressive behavior and energy absorption capability of the foam-filled tubes were investigated during the quasi-static progressive plastic buckling. the uniaxial compressive stress–strain curves of the foam-filled brass tubes exhibited t...
full textEffect of Lateral Constraint on the Mechanical Properties of a Closed-Cell Al Foam: I. Experiments
• A submitted manuscript is the author's version of the article upon submission and before peer-review. There can be important differences between the submitted version and the official published version of record. People interested in the research are advised to contact the author for the final version of the publication, or visit the DOI to the publisher's website. • The final author version ...
full textSimulation of Foaming and Deformation for Composite Aluminum Foams
In this study, at the first stage, the rupture criterion of bubbles wall in Aluminum metal foam liquid was investigated by using Lattice Boltzmann. The two phases modeling were accomplished by using a modified Shan-Chen model. This model was run for several bubbles in A356+3wt.%SiC melt system. Then, bubbles morphologies (virtual metallographic) for A356+3wt.%SiC foams were simulated. Results s...
full textاثر ساختار سلولی فوم آلومینیم کامپوزیتی A356-10vol.%SiCبر رفتار شبه استاتیکی کمانش پلاستیک پیشرونده قوطیهای برنجی پرشده با آن
In this paper, the behavior of energy absorption of crush-boxes, made of Aluminum foam advanced material, was investigated based on foam cellular structure homogeneity. Therefore, thin-walled tubes of Cu-Zn30wt.%.brass alloy with 27 mm diameter and 1 mm thickness were filled with A356-10vol.%SiC-Xwt.%. of TiH2 foam liquid. Foam samples with 1, 1.5, 2wt.%. of TiH2 were prepared by Form Grip into...
full textMy Resources
Journal title
volume 1 issue 1
pages 32- 45
publication date 2014-04-01
By following a journal you will be notified via email when a new issue of this journal is published.
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023