Effects of Al and Cu Addition on Pressureless Sintering Behavior and Phase Transformation of β-FeSi2
The preparation of β-FeSi2 thermoelectric material by liquid phase sintering with addition of a low melting point metal has been tried. Aluminum and copper were selected as an additive. The effects of Al or Cu on the sintering behavior and the phase transformation of β-FeSi2 have been investigated....
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| Published in | Materials Transactions, JIM Vol. 41; no. 7; pp. 857 - 864 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
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Sendai
The Japan Institute of Metals
2000
Japan Institute of Metals |
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| Abstract | The preparation of β-FeSi2 thermoelectric material by liquid phase sintering with addition of a low melting point metal has been tried. Aluminum and copper were selected as an additive. The effects of Al or Cu on the sintering behavior and the phase transformation of β-FeSi2 have been investigated. In the case of sample with Al addition before mechanical grinding (MG), the liquid phase was not formed because pure Al disappeared by diffusion of Al atoms into the matrix before the sintering temperature reached the melting point of Al. On the other hand, in the case of the sample with Al addition after MG, Al–Si liquid phase was formed around 850 K, the eutectic point of Al88.7Si11.3. The liquid aluminum preferentially diffused into the solid phase and the pores were formed at previously occupied Al particle sites. This pore formation resulted in swelling of the compacts. Additionally, Al addition accelerated decomposition of the β phase to the α and ε phases. In the case of the sample with Cu addition, Cu–Si liquid phase was formed around 1075 K . This liquid phase was highly effective for densification of the compacts. Cu addition caused the transformation from the mixture of α and ε phase to the β phase around 1130 K during cooling after the sintering, which suggests that the subsequent annealing for the formation of the β phase in the conventional method can be omitted. The β phase transformation during cooling is considered to consist of the following two mechanisms. (1) Cu addition accelerates the decomposition reaction α→β+(Cu–Si)liquid instead of the ordinary α→β+Si. (2) The Cu–Si liquid phase spreads over the particles and facilitates the reaction ε+Si→β by supplying Si atoms to the ε phase through the liquid. |
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| AbstractList | The preparation of beta-FeSi2 thermoelectric material by liquid phase sintering with addition of a low melting point metal has been attempted. Aluminum and copper were selected as an additive. The effects of Al or Cu on the sintering behavior and the phase transformation of beta-FeSi2 were investigated. In the case of the sample with Al addition before mechanical grinding (MG), the liquid phase was not formed because pure Al disappeared by diffusion of Al atoms into the matrix before the sintering temperature reached the melting point of Al. On the other hand, in the case of the sample with Al addition after MG, the Al-Si liquid phase was formed around 850 K, the eutectic point of Al(88.7)Si(11.3). The liquid aluminum preferentially diffused into the solid phase, and the pores were formed at previously occupied Al particle sites. This pore formation resulted in swelling of the compacts. Additionally, the addition of Al accelerated the decomposition of the beta phase to the alpha and epsilon phases. In the case of the sample with Cu addition, the Cu-Si liquid phase formed around 1075 K. This liquid phase was highly effective for densification of the compacts. (Author) The preparation of β-FeSi2 thermoelectric material by liquid phase sintering with addition of a low melting point metal has been tried. Aluminum and copper were selected as an additive. The effects of Al or Cu on the sintering behavior and the phase transformation of β-FeSi2 have been investigated. In the case of sample with Al addition before mechanical grinding (MG), the liquid phase was not formed because pure Al disappeared by diffusion of Al atoms into the matrix before the sintering temperature reached the melting point of Al. On the other hand, in the case of the sample with Al addition after MG, Al–Si liquid phase was formed around 850 K, the eutectic point of Al88.7Si11.3. The liquid aluminum preferentially diffused into the solid phase and the pores were formed at previously occupied Al particle sites. This pore formation resulted in swelling of the compacts. Additionally, Al addition accelerated decomposition of the β phase to the α and ε phases. In the case of the sample with Cu addition, Cu–Si liquid phase was formed around 1075 K . This liquid phase was highly effective for densification of the compacts. Cu addition caused the transformation from the mixture of α and ε phase to the β phase around 1130 K during cooling after the sintering, which suggests that the subsequent annealing for the formation of the β phase in the conventional method can be omitted. The β phase transformation during cooling is considered to consist of the following two mechanisms. (1) Cu addition accelerates the decomposition reaction α→β+(Cu–Si)liquid instead of the ordinary α→β+Si. (2) The Cu–Si liquid phase spreads over the particles and facilitates the reaction ε+Si→β by supplying Si atoms to the ε phase through the liquid. |
| Author | Ito, Mikio Nagai, Hiroshi Tanaka, Takashi Katsuyama, Shigeru Majima, Kazuhiko |
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| CitedBy_id | crossref_primary_10_2320_matertrans_42_1451 crossref_primary_10_1016_j_jallcom_2008_08_078 crossref_primary_10_1080_14786435_2017_1328136 crossref_primary_10_1143_JJAP_48_100209 crossref_primary_10_2320_matertrans_E_M2009808 crossref_primary_10_1063_1_1502202 crossref_primary_10_1016_S0925_8388_01_01171_9 crossref_primary_10_1016_S0925_8388_01_00920_3 crossref_primary_10_1016_S0966_9795_03_00020_7 |
| Cites_doi | 10.2497/jjspm.46.757 10.1016/0022-5088(78)90225-4 10.2320/matertrans1989.39.1140 10.1007/BF00551006 10.1016/S0925-8388(97)00165-5 10.1023/A:1004323930521 10.2320/matertrans1989.39.515 10.2320/matertrans1960.26.369 10.2320/jinstmet1952.62.11_1082 10.1002/pssb.19680270141 10.1007/978-1-4899-3599-1 10.1049/piee.1964.0029 10.2320/matertrans1989.36.365 |
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| Keywords | Densification Swelling Phase transformations Vacuum sintering XRD Liquid phase sintering Experimental study Powder metallurgy Melting points DTA Dilatometry Sintering Iron silicides |
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| Snippet | The preparation of β-FeSi2 thermoelectric material by liquid phase sintering with addition of a low melting point metal has been tried. Aluminum and copper... The preparation of beta-FeSi2 thermoelectric material by liquid phase sintering with addition of a low melting point metal has been attempted. Aluminum and... |
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| SubjectTerms | Applied sciences Cross-disciplinary physics: materials science; rheology densification Exact sciences and technology liquid phase sintering low melting point metal Materials science Materials synthesis; materials processing Metals. Metallurgy Physics Powder processing: powder metallurgy, compaction, sintering, mechanical alloying, and granulation pressureless sintering swelling β phase transformation β-FeSi2 |
| Title | Effects of Al and Cu Addition on Pressureless Sintering Behavior and Phase Transformation of β-FeSi2 |
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