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Summary
| Description |
English: This graph shows how the stacking fault energy of copper decreases with increasing aluminum alloy content. |
| Date | |
| Source | Previously published: While this compiled graph has not been published before, the source data is cited below. |
| Author | User:Scott Taysom |
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English: <refrences/>
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- ↑ Rohatgi, A., Vecchio, K., Gray, G., (2001). The influence of stacking fault energy on the mechanical behavior of Cu and Cu-Al alloy: Deformation twinning, work hardening, and dynamic recovery. Metallurgical and Materials Transactions A 32A, 135-145.
- ↑ Venables, J. A. (1964). The electron microscopy of deformation twinning. Journal of physics and chemistry solids, 25, 685-690.
- ↑ Johari, O., Thomas, G., (1964). Substrates in explosively deformed Cu and CU-Al alloys. Acta Metallurgica 12, (10), 1153-1159.
File history
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| Date/Time | Thumbnail | Dimensions | User | Comment | |
|---|---|---|---|---|---|
| current | 06:00, 4 May 2012 | | 625 × 422 (13 KB) | Taysomb | {{subst:Upload marker added by en.wp UW}} {{Information |Description = {{en|This graph shows how the stacking fault energy of copper decreases with increasing aluminum alloy content.}} |Source = Made in Excel with data fro... |
| 05:58, 4 May 2012 |  | 625 × 422 (13 KB) | Taysomb | {{subst:Upload marker added by en.wp UW}} {{Information |Description = {{en|This graph shows how the stacking fault energy of copper decreases with increasing aluminum alloy content.}} |Source = Made in Excel with data fro... |
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