A significant volume of “thick” aluminum plate products is used in the manufacture of an aircraft's internal structure in applications such as ribs, spars, frames, bulkheads, etc. With the recent launch of more fuel efficient and primarily metallic single aisle aircraft as well as the introduction of composite-intensive twin-aisle aircraft, a number of opportunities exist for upgrading alloys developed more than 30 years ago with a new generation of thick plate products. These include 7xxx aluminum alloys that show significant improvements in both strength and toughness along with Al-Li alloys that show high strength, low density and very high corrosion resistance with significantly improved toughness over previous generation Al-Li. This paper will review these improvements and provide insights into the metallurgy behind better fracture toughness, particularly in the short transverse direction, by considering the impact of composition and processing on quench sensitivity.
CITATION STYLE
Boselli, J., Bray, G., Rioja, R. J., Mooy, D., Venema, G., Feyen, G., & Wang, W. (2012). The Metallurgy of High Fracture Toughness Aluminum-Based Plate Products for Aircraft Internal Structure. In ICAA13 Pittsburgh (pp. 581–586). Springer International Publishing. https://doi.org/10.1007/978-3-319-48761-8_85
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