Effect of cell size on the microarchitectural and physicomechanical response in open-cell Al foam made through template method

Effect of cell size on the microarchitectural and physicomechanical response in open-cell Al foam made through template method

Fully open interconnected Al-foam having different PPI (Pores per inch) was fabricated through the novel template method. The morphology of the open-cell Aluminium foam (OCAF) (strut, pore, and cell size) can be easily tailored with this method. Three different PPI (10, 20, and 30) Al-foams were fab...

Full description

Saved in:
Bibliographic Details
Published in:Materials chemistry and physics Vol. 296; p. 127341
Main Authors: Pandey, Ashutosh, Dubey, Ruchi, Jain, Hemant, Abhas, Amit, Kumar, Rajeev, Gupta, G.K., S, Siram, Chilla, V., Mondal, D.P.
Format: Journal Article
Language:English
Published: Elsevier B.V 15-02-2023
Subjects:
Different PPI foam
Morphology
Open cell Al-Foam
Powder metallurgy
Sintering temperature
Template method
Template method
Open cell Al-Foam
Sintering temperature
Powder metallurgy
Morphology
Different PPI foam
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Fully open interconnected Al-foam having different PPI (Pores per inch) was fabricated through the novel template method. The morphology of the open-cell Aluminium foam (OCAF) (strut, pore, and cell size) can be easily tailored with this method. Three different PPI (10, 20, and 30) Al-foams were fabricated through the template method, and show the effect of PPIs’ on their microstructure, thermal, electrical, and mechanical properties in detail. With different PPI of the foam, the porosity lies in the range of 85–94%. Through experiments, it was found that with the increase in PPI, the density of the foam gets increases. Complete openness and uniformity in terms of the pore, strut size, and porosity throughout the samples has been easily achieved with this method, which is very difficult with previously reported methods. As the PPI of the foam changes, the properties (electrical, thermal, and mechanical) also change. According to the requirement, one can easily tailor the properties by changing the PPI of the foam. Experimentally evaluated properties were also compared with the theoretically calculated values. The open-cell aluminium foam of 30 PPI (OCAF-30) having RD-0.14 shows electrical conductivity- 0.68 × 106 S/m, thermal conductivity- 6.43 W/m.K, and compressive strength of 0.65 MPa. This study helps the research community to fabricate OCAF according to their requirement with desired thermal, electrical, and mechanical properties for the application of heat transfer, electrocatalysis, and others. Tailoring the reticulated architecture and the properties of open-cell Al-foam through template method. [Display omitted] •Fully open cell intern-connected Al-foam was fabricated using PU template.•The cell morphology (size, strut thickness) and densities can be easily tailored.•The strength, and thermal and electrical conductivity are tailored.•The foam density varied (0.156–0.405 g/cc) with PPI (10–30) of PU foam.•The properties of foam are comparable with its theoretical values.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2023.127341