Intermetallic particle
Intermetallic particles form during solidification of metallic alloys.
Aluminium alloys
Al-Si-Cu-Mg alloys
For example Al-Si-Cu-Mg alloys form Al5FeSi- plate like intermetallic phase, Chinese scipt like -Al8Fe2Si, Al2Cu, etc. The size and morphology of these intermetallic phases in these alloys control the mechanical properties of these alloys especially strength and ductility.[1] The size of these phases depends on the secondary dendrite arm spacing,[2] as well as the Si content of the alloy,[3][4][5][6][7] of the primary phase in the micro structure.
Phases and crystal Structures
Phase | Structure | Space Group | a | b | c | α | β | γ | .. |
---|---|---|---|---|---|---|---|---|---|
α-Al8Fe2Si[8] | hexagonal | p63/mmc(194) | 12.404 | 12.404 | 26.234 | 90 | 90 | 120 | .. |
β-Al5FeSi[9] | monoclinic | 2/m | 6.16760 | 6.1661 | 20.8093 | .. | .. | 91 | .. |
Al2Cu | .. | .. | .. | .. | .. | .. | .. | .. | .. |
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.. | .. | .. | .. | .. | .. | .. | .. | .. | .. |
Magnesium alloys
WE 43
In-situ synchrotron diffraction experiment[10] on Electron alloy-WE 43 (Mg4Y3Nd) shows that this alloy form the following intermetallic phases ;Mg12Nd, Mg14Y4Nd,and Mg24Y5.
Phases and crystal Structures
Phase | Structure | Space Group | a | b | c | α | β | γ | .. |
---|---|---|---|---|---|---|---|---|---|
Mg41Nd5 | .. | .. | .. | .. | .. | .. | .. | .. | .. |
β-Mg14Nd2Y[11] | face centered cubic | 2.2 nm | .. | .. | .. | ||||
Mg24Y5[11] | body centered cubic | .. | 1.12 nm | .. | .. | .. | .. | .. | .. |
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AZ 91
Phases and crystal Structures
Phase | Structure | Space Group | a | b | c | α | β | γ | .. |
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.. | .. | .. | .. | .. | .. | .. | .. | .. | |
.. | .. | .. | |||||||
.. | .. | .. | .. | .. | .. | .. | .. | ||
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.. | .. | .. | .. | .. | .. | .. | .. | .. | .. |
References
- ↑ Caceres, C. H. Svensson, I. L. Taylor, J. A. "Strength-ductility behaviour of Al-Si-Cu-Mg casting alloys in T6 temper" (5).
- ↑ Sivarupan, Tharmalingam; Caceres, Carlos H.; Taylor, John A. (9 May 2013). "Alloy Composition and Dendrite Arm Spacing in Al-Si-Cu-Mg-Fe Alloys". Metallurgical and Materials Transactions A. 44 (9): 4071–4080. Bibcode:2013MMTA...44.4071S. doi:10.1007/s11661-013-1768-x.
- ↑ Sivarupan, Tharmalingam; Caceres, Carlos H.; Taylor, John A. (July 2013). "Effect of Si Content on the Size of Fe-Rich Intermetallic Particles in Al-xSi-0.8Fe Alloys". Materials Science Forum. 765: 107–111. doi:10.4028/www.scientific.net/MSF.765.107.
- ↑ "Effect of Si and Cu Content on the Size of Intermetallic Phase Particles in Al-Si-Cu-Mg-Fe Alloys". Shape/Tiryakioǧlu: 137–143. doi:10.1002/9781118888100.ch17.
- ↑ "Effect of Si and Cu Content on the Size of Intermetallic Phase Particles in Al-Si-Cu-Mg-Fe Alloys". Shape/Tiryakioǧlu: 137–143. doi:10.1002/9781118888100.ch17.
- ↑ "Ductility and solidification issues in Al-Si-Cu-Mg alloys". doi:10.14264/uql.2015.91.
- ↑ Sivarupan, Tharmalingam; Taylor, John Andrew; Cáceres, Carlos Horacio (25 February 2015). "SDAS, Si and Cu Content, and the Size of Intermetallics in Al-Si-Cu-Mg-Fe Alloys". Metallurgical and Materials Transactions A. 46 (5): 2082–2107. Bibcode:2015MMTA...46.2082S. doi:10.1007/s11661-015-2808-5.
- ↑ R.N. Corby and P.J. Black: Acta Crystallogr. Sect. B, 1977, vol. 33, pp. 3468–75.
- ↑ V. Hansen, B. Hauback, M. Sundberg, C. Romming, and J. Gjonnes: Acta Crystallogr. Sect. B, 1998, vol. 54, pp. 351–57.
- ↑ Tolnai, D.; Mendis, C.L.; Stark, A.; Szakács, G.; Wiese, B.; Kainer, K.U.; Hort, N. (July 2013). "In situ synchrotron diffraction of the solidification of Mg4Y3Nd". Materials Letters. 102-103: 62–64. doi:10.1016/j.matlet.2013.03.110.
- 1 2 http://www.journalamme.org/papers_vol21_1/1385S.pdf
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