4th ModTech International Conference - Modern Technologies in Industrial Engineering | |
Mechanically Alloyed High Entropy Composite | |
Popescu, G.^1 ; Adrian, M.M.^1 ; Csaki, I.^1 ; Popescu, C.A.^1 ; Mitric, D.^2 ; Vasile, S.^2 ; Carcea, I.^3 | |
University POLITEHNICA of Bucharest, Faculty of Materials Science and Engineering, 313 Splaiul Independenei, Bucharest | |
0600402, Romania^1 | |
National RandD Institute for Nonferrous and Rare Metals - IMNR, 102 Biruinei Blvd., Pantelimon, Ilfov County | |
077145, Romania^2 | |
Gheorghe Asachi Technical University of Iasi, Faculty of Materials Science and Engineering, 67A Prof. Dr. Doc. Dimitrie Mangeron Blvd., Iasi | |
700050, Romania^3 | |
关键词: Chemical compositions; Degree of compaction; High entropy alloys; High temperature stability; Mechanically alloyed; properties; Reinforcing materials; Technological properties; | |
Others : https://iopscience.iop.org/article/10.1088/1757-899X/145/7/072007/pdf DOI : 10.1088/1757-899X/145/7/072007 |
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来源: IOP | |
【 摘 要 】
In the last years high entropy alloys have been investigated due to their high hardness, high temperature stability and unusual properties that make these alloys to have significant interest. In comparison with traditional alloys that are based on two or three major elements, this new generation alloys consists at least of 5 principal elements, with the concentration between 5 and 35 at.%. The present paper reports synthesis of high entropy alloys (HEA) and high entropy composites (HEC) synthesized by mechanical alloying (MA). The equiatomic AlCrFeNiMn matrix was used for creating the HEA matrix, starting from elemental powders and as reinforcing material for composites was used pure graphite. The mechanical alloying process was carried out at different duration, in a high energy planetary ball mill, under argon atmosphere. The elemental powders alloying began after '5 hours of milling and was complete after 40 hours. The mechanical alloyed matrix and composite was pressed and heat treated under argon protection. The elemental powers were investigated for physical - technological properties, and by X-ray diffraction and scanning electron microscopy. Phase pressing operation was realized with a hydraulic press and the applied pressure was progressive. The sintering process was carried out at 850°C for 2 h. The X-ray diffraction revealed that the MA process resulted in solid solutions formation and also revealed body- centred cubic (BCC) and face-centred cubic (FCC) structures with average grain size around 40 nm. In addition, nanoscale particles were highlighted by scanning electron microscopy, as well as the homogeneity of the chemical composition of the matrix and composite that was confirmed by EDX microanalysis. It was noted that HEA matrix and HEA composites were processed with a high degree of compaction and with a quite large capacity of mixed powder densification (around 70%).
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