Quantitative microstructural and fractographic characterization of AE-Li/FP metal matrix composite

Drury, William James

08 1900

No description available.

Composite materials

Aluminum-lithium alloys

Metallic composites Fracture

Modeling and optimization of superplastic forming of Weldlite(TM) 049 sheet products /

Kridli, Ghassan Tahsin,

January 1997

Thesis (Ph. D.)--University of Missouri-Columbia, 1997. / TM in title is superscripted on title page. Typescript. Vita. Includes bibliographical references (leaves 100-103). Also available on the Internet.

Modeling and optimization of superplastic forming of Weldlite(TM) 049 sheet products

Kridli, Ghassan Tahsin,

January 1997

Thesis (Ph. D.)--University of Missouri-Columbia, 1997. / TM in title is superscripted on title page. Typescript. Vita. Includes bibliographical references (leaves 100-103). Also available on the Internet.

Hydrogen embrittlement of Aluminum-Lithium alloys

Rivet, Frederic C.

14 March 2009

The objective of this work is to study the effects of dissolved hydrogen on the mechanical properties of aluminum-lithium alloys: 2090, 2091, and Weldalite 049, and to compare with the effects on aluminum-copper 2219 alloy. Prior to mechanical testing, aging studies were performed for 2090 and 2219 using microhardness Vickers to determine the peak aged condition required by NASA. The Charpy tests are part of this study designed to investigate the effects of temperature and notch orientation on fracture behavior. Disk rupture tests were used with various gases (hydrogen and nitrogen) and three strain rates (increment of 50 psi every 20, 200 and 300 seconds) and two temperatures (room and liquid nitrogen temperatures) to determine the effects of hydrogen on the sample during the tests. Some independent studies on the corrosion behavior and electrochemical hydrogen charging of 2219 and 2090 were also performed. An effect of double peak aged condition was found for both 2219 and 2090 alloys. Prior to mechanical testing, the 2090 received in the T3 or W51 conditions was chosen to be aged in an air furnace at 170°C for 16 hours. The Charpy studies showed a higher propagation energy needed for the T-S and L-S orientations than for the L-T and T-L orientations, due in large part to the extensive delamination propagation of the fracture. The disk rupture tests showed a important decrease of the fracture to failure on the 2090 and 2091 due to hydrogen while no important variations were seen for the 2219 and the weldalite 049 alloys. No effect of hydrogen were found, with the disk rupture test, at cryogenic temperature and for all alloys. The corrosion behavior of 2219, as well as 2090, showed development of pits under neutral and acidic environments while general corrosion was obtained with basic environment. Two solutions were found to charge the samples in hydrogen: a potentiostatic test for 5 hours at -3V, and a galvanostatic test for 20 hours at -500μA, both performed in a 0.04 N HCl plus As₂O₃ environment. / Master of Science

LD5655.V855 1990.R594

Aluminum alloys

Aluminum-lithium alloys

Effect of R-ratio on crack closure in Al-Li 2090 T8E41, investigated non-destructively with x-ray microtomography

Morano, Robert Natale

12 1900

No description available.

Materials Cracking

Aluminum-lithium alloys Fatigue

Materials Fatigue

X-ray microscopes

Tomography

Characterization and Modeling of Lightweight Alloys in the Warm Forming Regime

Sutton, Scott Christopher

10 August 2018

No description available.

Materials Science

ZE20

AA2070

rare earth effect

aluminum lithium alloy

constitutive modeling

Corrosion Behavior and Coating Protection of Aluminum-Lithium-CopperAlloys 2099-T3 and 2060-T8E30

Knox, Sara Nicole

January 2015

No description available.

Engineering

Materials Science

Corrosion

Aluminum

B117

G85

Aluminum-Lithium

AA2099,

AA2060

Investigation into the stress corrosion cracking properties of AA2099, an Al-Li-Cu alloy

Padgett, Barbara Nicole

18 March 2008

No description available.

Materials Science

aluminum-lithium-copper alloys

stress corrosion cracking

friction stir welding

anodic dissolution

2099