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Brazeability and Microstructure of Ag-28Cu Microjoining Filler Produced by High Energy Ball Milling

Ashutosh Sharma Myoung Jin Chae Byungmin Ahn
Archives of Metallurgy and Materials | 2020 | vol. 65 | No 4 | 1323-1327 | DOI: 10.24425/amm.2020.133693
Keywords filler microjoining dissimilar ball milling microstructure
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Abstract

In this paper, we have studied the evolution of morphology and brazing behavior of Ag-28Cu alloy filler processed by high energy ball milling. The milling of the powder mixture was carried out for 40 h. The structural and morphological analyses were performed by the X-ray diffraction and scanning electron microscopy. The melting temperature of the braze filler was determined by differential thermal analysis. The filler wetting properties were assessed from the spread area ratio measurements on various Ti substrates. The results indicate that the ball milling can effectively depress the filler melting point and enhance the brazeability. The milled powder mixture showed Ag(Cu) solid solution with a crystallite size of 174-68 nm after 40 h. It was shown that the high energy ball milling can be a potential method to develop low temperature brazing fillers for advanced microjoining applications.

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Authors and Affiliations

Ashutosh Sharma
ORCID: ORCID
Myoung Jin Chae
Byungmin Ahn
ORCID: ORCID

Microstructural Evolution of AlCuFeMnTi-0.75Si High Entropy Alloy Processed by Mechanical Alloying and Spark Plasma Sintering

Minsu Kim Ashutosh Sharma Myoung Jin Chae Hansung Lee Byungmin Ahn
Archives of Metallurgy and Materials | 2021 | vol. 66 | No 3 | 703-707 | DOI: 10.24425/amm.2021.136365
Keywords high entropy alloy powder metallurgy mechanical alloying spark plasma sintering high energy ball milling
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Abstract

In this work, we have designed a new high entropy alloy containing lightweight elements, e.g., Al, Fe, Mn, Ti, Cu, Si by high energy ball milling and spark plasma sintering. The composition of Si was kept at 0.75 at% in this study. The results showed that the produced AlCuFeMnTiSi0.75 high entropy alloy was BCC structured. The evolution of BCC1 and BCC2 phases was observed with increasing the milling time up to 60 h. The spark plasma sintering treatment of milled compacts from 650-950°C showed the phase separation of BCC into BCC1 and BCC2. The density and strength of these developed high entropy alloys (95-98%, and 1000 HV) improved with milling time and were maximum at 850°C sintering temperature. The current work demonstrated desirable possibilities of Al-Si based high entropy alloys for substitution of traditional cast components at intermediate temperature applications.
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Bibliography

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Authors and Affiliations

Minsu Kim
1
Ashutosh Sharma
1
ORCID: ORCID
Myoung Jin Chae
1
Hansung Lee
1
ORCID: ORCID
Byungmin Ahn
1
ORCID: ORCID
  1. Ajou University, Department of Materials Science and Engineering and Department of Energy Systems Research, 206 Worldcup-ro, Suwon-si, Gyeonggi, 16499, Korea

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