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Near-Net-Shape Fabrication of Thermoelectric Legs by Flash Sintering
Near-Net-Shape Fabrication of Thermoelectric Legs by Flash Sintering
by Mikami, Masashi , Kinemuchi, Yoshiaki , Kubo, Kazuya , Uchiyama, Naoki , Nishino, Yoichi , Miyazaki, Hidetoshi
in Atomizing / Crystal structure / Density / Electrical resistivity / Energy conservation / Energy consumption / Energy recovery / Machining / Modules / Near net shaping / Reduction / Resistance sintering / Seebeck effect / Sintering / Thermal conductivity / Thermoelectric power generation / Thermoelectricity
2020
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Near-Net-Shape Fabrication of Thermoelectric Legs by Flash Sintering
by Mikami, Masashi , Kinemuchi, Yoshiaki , Kubo, Kazuya , Uchiyama, Naoki , Nishino, Yoichi , Miyazaki, Hidetoshi
in Atomizing / Crystal structure / Density / Electrical resistivity / Energy conservation / Energy consumption / Energy recovery / Machining / Modules / Near net shaping / Reduction / Resistance sintering / Seebeck effect / Sintering / Thermal conductivity / Thermoelectric power generation / Thermoelectricity
2020
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Near-Net-Shape Fabrication of Thermoelectric Legs by Flash Sintering
Near-Net-Shape Fabrication of Thermoelectric Legs by Flash Sintering
by Mikami, Masashi , Kinemuchi, Yoshiaki , Kubo, Kazuya , Uchiyama, Naoki , Nishino, Yoichi , Miyazaki, Hidetoshi
in Atomizing / Crystal structure / Density / Electrical resistivity / Energy conservation / Energy consumption / Energy recovery / Machining / Modules / Near net shaping / Reduction / Resistance sintering / Seebeck effect / Sintering / Thermal conductivity / Thermoelectric power generation / Thermoelectricity
2020

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Near-Net-Shape Fabrication of Thermoelectric Legs by Flash Sintering
Near-Net-Shape Fabrication of Thermoelectric Legs by Flash Sintering
Journal Article

Near-Net-Shape Fabrication of Thermoelectric Legs by Flash Sintering

Mikami, Masashi,
Kinemuchi, Yoshiaki,
Kubo, Kazuya,
Uchiyama, Naoki,
Nishino, Yoichi,
Miyazaki, Hidetoshi
2020
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Overview
This study examines the near-net-shape fabrication, by flash sintering, of a sintered body for use in a thermoelectric module. Gas-atomized Fe2VAl powder was sintered with a current feed, for a duration on the order of seconds, using an apparatus specially devised for flash sintering. This produced sintered bodies in columnar form, with a diameter and height on the order of millimeters, which can be used for constructing thermoelectric modules without the need for a machining process, such as cutting or dicing. Although a slight reduction in density is observed, the crystal structure is unaffected by rapid heating and cooling. The magnitude of electrical and thermal conductivity is reduced, while the value of Seebeck coefficient is identical to that of a sample sintered by using conventional current sintering at 1373 K for 10 min. The significantly shorter sintering time can reduce energy consumption to less than 1 Wh, compared with the several hundred Wh required for conventional current sintering. Although it is still necessary to optimize the sintering conditions to overcome the reduction in density, the significant energy-conservation benefits of flash sintering have great practical appeal, especially for fabricating sintered bodies constituting thermoelectric power generation devices used for energy recovery.
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Publisher
Springer Nature B.V
Subject

Atomizing

/ Crystal structure

/ Density

/ Electrical resistivity

/ Energy conservation

/ Energy consumption

/ Energy recovery

/ Machining

/ Modules

/ Near net shaping

/ Reduction

/ Resistance sintering

/ Seebeck effect

/ Sintering

/ Thermal conductivity

/ Thermoelectric power generation

/ Thermoelectricity

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