Description: Touchstone Research Laboratory, along with Alcan Rolled Products Ravenswood WV, has identified the Aluminum-Lithium Alloy 2050 as a potentially game-changing material replacement for current space structural alloys such as Aluminum-Lithium alloy 2195. AA2050 is available in significantly thicker plate gauges than AA2195 and, as a result, can be machined or formed into ribs, stringers or other types of stiffened structures that have increased stiffness and as a result provide overall structural weight savings potential of approximately 15 to 20%. The AA2050, however, needs more development work and understanding in the area of cryogenic material properties, joining, and design potential to be considered for NASA mission vehicles. Touchstone is proposing a Phase I effort to do cryogenic characterization testing, concept design, and computational modeling and analysis to demonstrate the feasibility of using AA2050 for increased-stiffness, reduced-weight space structures.

Benefits: Numerous non-NASA applications exist for lightweight, improved-stiffness structural designs that utilize Aluminum-Lithium alloy 2050. These applications include both military and commercial applications. The proposed materials will benefit applications for the Department of Defense, including Army, Air Force, & Navy. Aircraft such as the F-35, CH53-K, V-22 could benefit. For the Army, future ground combat vehicles have been considering Titanium in order to reduce weight, but its cost is high, so the aluminum could have application in this area. The Navy is also turning toward aluminum ship designs to reduce weight, and the proposed results could further provide improvements in this area. Commercially, aircraft such as the Boeing 777, Airbus A-380 and Airbus A340-600 are currently utilizing Al-Li alloys in their structures, which could be reduced in weight.

The proposed effort, which seeks to develop lighter-weight, more structurally efficient designs using Aluminum-Lithium alloy 2050 as a replacement for conventional alloys, has broad applications across many NASA missions. Stiffened structures exist in launch vehicles, especially in their tank structures. Tanks have to withstand high stress during launch and provide stability at cryogenic temperatures. The cancellation of the Constellation Program has left the NASA mission for human space flight exploration somewhat undefined, but the proposed technology will have applications to future replacement programs. Essentially, any structure that is part of a NASA mission could benefit from new, lightweight aluminum alloy developments. These structures could include: future launch vehicle, crew vehicle, surface habitats, robotic explorers or cryogenic tank structures.