Abstract
Bi doped Mg2Si0.4Sn0.6 had been synthesised in a high energy ball mill followed by compaction using a sintering hot press. The structural and compositional characterization of sintered mass indicated the formation of a highly densified single-phase product. The microstructure of the hot-pressed samples had been critically assessed. Thermoelectric properties were measured between room temperature and 723 K. A decrease in electrical conductivity was found with the increase in temperature but the Seebeck coefficient showed a reverse trend justifying the attainment of degenerate semiconducting behaviour. Meanwhile, the lattice thermal conductivity was subdued to 1.5 W/mK at 623 K. However, the highest zT value of 0.8 was achieved at 723 K. Moreover, the detailed X-ray photoelectron spectroscopic analysis was carried for the determination of binding energy of the constituent elements in the experimental alloy; it also provided the correct estimation of atomic percentage of the concerned elements. The Raman spectrum revealed a shift in F2g peak with respect to that of Mg2Sn and Mg2Si in correspondence with the composition of the synthesised alloy. The synthesised alloy showed micro and nano hardness of 3.7 and 4.03 GPa respectively, which implies that good mechanical strength could be achieved in the synthesised alloy.
Original language | English |
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Article number | 152888 |
Journal | Journal of Alloys and Compounds |
Volume | 818 |
DOIs | |
State | Published - Mar 25 2020 |
Externally published | Yes |
Funding
The study was supported by a grant from Global Innovation Technology Alliance - Department of Science and Technology [GITA/DST/TWN/P-68/2015], Government of India. We are thankful to National Taiwan University for the Ball milling, XRD, ZEM & LFA measurements and Materials Research Centre, MNIT Jaipur for FESEM-EDX-EBSD, HRTEM, XPS, Raman spectroscopy, Vicker's indentation & nanoindentation. The study was supported by a grant from Global Innovation Technology Alliance - Department of Science and Technology [ GITA/DST/TWN/P-68/2015 ], Government of India. We are thankful to National Taiwan University for the Ball milling, XRD, ZEM & LFA measurements and Materials Research Centre, MNIT Jaipur for FESEM-EDX-EBSD, HRTEM, XPS, Raman spectroscopy, Vicker’s indentation & nanoindentation.
Funders | Funder number |
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Global Innovation Technology Alliance | |
MNIT | |
Department of Science and Technology, Government of Kerala | |
National Taiwan University | |
Department of Science, Information Technology and Innovation, Queensland Government | GITA/DST/TWN/P-68/2015 |
Department of Science, Information Technology and Innovation, Queensland Government |
Keywords
- High energy ball milling
- Magnesium silicide stannide
- Mechanical properties
- n-type MgSiSn
- Thermoelectric properties