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Journal of Materials Engineering and Performance

Published in:

01-02-2018

Compressive Deformation Behavior of Open-Cell Cu-Zn-Al Alloy Foam Made Through P/M Route Using Mechanically Alloyed Powder

Authors: Ajay Kumar Barnwal, D. P. Mondal, Rajeev Kumar, N. Prasanth, R. Dasgupta

Published in: Journal of Materials Engineering and Performance | Issue 3/2018

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Abstract

Cu-Zn-Al foams of varying porosity fractions using mechanical alloyed powder have been made through powder metallurgy route. Here, NH₄ (HCO₃) was used as a space holder. Mechanically alloyed Cu-Zn-Al is made using a planetary ball mill taking the ratio of Cu/Zn/Al = 70:25:5 (by weight ratio). The ball/powder ratios were varied in the four ranges 10:1, 15:1, 20:1, and 25:1. Green compacts of milled powder and space holder samples were sintered at three stages at three different temperatures 350, 550, and 850 °C for 1 h at each stage. The crystalline size and particle size as a function of ball/powder ratios were examined. The compressive deformation responses of foams are varied with relative density and the ball/powder ratio. The plateau stress and energy absorption of these foams increase with an increase in relative density but decreases with increase in ball/powder ratio, even though crystalline size decreases. This has further been explained on the basis of particle morphology as a function of ball/powder ratio.

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Title: Compressive Deformation Behavior of Open-Cell Cu-Zn-Al Alloy Foam Made Through P/M Route Using Mechanically Alloyed Powder
Authors: Ajay Kumar Barnwal
D. P. Mondal
Rajeev Kumar
N. Prasanth
R. Dasgupta
Publication date: 01-02-2018
Publisher: Springer US
Published in: Journal of Materials Engineering and Performance / Issue 3/2018
Print ISSN: 1059-9495
Electronic ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-018-3165-5

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