The Anisotropy and Texture of Al-Li Alloys

Jata, Kumar V.; Hopkins, Aaron; Rioja, R. J.

doi:10.4028/www.scientific.net/msf.217-222.647

Cited by 104 publications

(41 citation statements)

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“…Al-Li plate products developed commercially in the past suffered from problems such as: low fracture toughness, anisotropy of mechanical properties [5][6][7] and delamination after repeated fastening [8]. These were related to a combination of factors, viz.…”

Section: Introductionmentioning

confidence: 99%

Effect of Zr content and mechanical working on the structure and tensile properties of AA8090 alloy plates

Gokhale

Singh

2005

Journal of Materials Processing Technology

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Section: Introductionmentioning

confidence: 99%

Effect of Zr content and mechanical working on the structure and tensile properties of AA8090 alloy plates

Gokhale

Singh

2005

Journal of Materials Processing Technology

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“…It is shown that the IPA factors of tensile strength, yield strength and elongation of the as-quenched 7050 aluminum alloy fluctuate in the vicinity of 5%. However, both the IPA factors of tensile strength and yield strength are lower than 6%, and while, the IPA factor of elongation reaches 11.6% for the over-aged 7050 aluminum alloy, which is higher than that reported in other 7xxx aluminum alloy [28,29]. The IPA factor results illustrate that tensile direction has greater effect on elongation than tensile strength and yield strength of the over-aged 7050 aluminum alloy.…”

Section: In-plane Anisotropymentioning

confidence: 61%

“…So the effect of heat treatment on the in-plane anisotropy of the 7050 aluminum alloy was researched by analyzing the relationship between tensile directions and elongations of the 7050 aluminum alloy with different heat treatment conditions. Metals 2016, 6, 79 6 of 11 the IPA factor of elongation reaches 11.6% for the over-aged 7050 aluminum alloy, which is higher than that reported in other 7xxx aluminum alloy [28,29]. The IPA factor results illustrate that tensile direction has greater effect on elongation than tensile strength and yield strength of the over-aged 7050 aluminum alloy.…”

Section: In-plane Anisotropymentioning

confidence: 74%

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Effect of Heat Treatment on the In-Plane Anisotropy of As-Rolled 7050 Aluminum Alloy

Wang

2016

Metals

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Abstract:Tensile tests were conducted on both as-quenched and over-aged 7050 aluminum alloy to investigate the effect of heat treatment on the in-plane anisotropy of as-rolled 7050 aluminum alloy. The results showed that the tensile direction has limited effect on mechanical properties of the as-quenched 7050 aluminum alloy. The in-plane anisotropy factors (IPA factor) of tensile strength, yield strength, and elongation in as-rolled 7050 aluminum alloy fluctuate in the vicinity of 5%. The anisotropy of the as-quenched 7050 aluminum alloy is mainly affected by the texture according to single crystal analysis based on the Schmid factor method. Besides, the IPA factor of the elongation in the over-aged 7050 aluminum alloy reaches 11.6%, illustrating that the anisotropy of the over-aged 7050 aluminum alloy is more prominent than that of the as-quenched. The occurrence of the anisotropy in the over-aged 7050 aluminum alloy is mainly attributed to the microstructures. which are characterized by visible precipitate free zones (PFZs) and coarse precipitates in (sub)grain boundaries.

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“…The anisotropy of hot rolled materials can be calculated by % inplane anisotropy, which is defined as [26] The present alloy mainly consists of the ␣ phase, which exhibits low % in-plane anisotropy (0.34%). The (0 0 2) pole figure of the ␣ phase consists of basal component corresponding to [0 0 1]||ND fiber and other fiber located in between˚= 58 and 68 • .…”

Section: Resultsmentioning

confidence: 99%