Cavitation Behavior of Fine-Grained 1420 Al-Li Alloy during Superplastic Deformation

Jie Shao; He Ping Guo; Zhi Qiang Li; X.Q. Han

doi:10.4028/www.scientific.net/MSF.551-552.633

Paper Titles

Low Temperature Superplasticity and Intragranular Misorientation in Severely Rolled Sheets of Al-4.5%Mg-0.7%Mn Based Alloys
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Superplasticity of Nanostructured Nickel Alloy and Composite Fabricated by Electrodeposition
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High Resolution Surface Studies of Superplastic Deformation
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Cavitation Behavior of Ultra-Fine Grained Ti-6Al-4V Alloy Produced by Equal-Channel Angular Pressing
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The Effect of Strain Rate History on the Dynamic Grain Growth Behaviour of AA 5083
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Cavitation Behavior of Fine-Grained 1420 Al-Li Alloy during Superplastic Deformation
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Study on Superplastic Grain Growth Model and Dynamic Simulation
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Cavity of Al-Cu-Mg Alloy during Superplastic Deformation
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Microstructure Evolution and Mechanical Properties of Mg Alloy AZ31D Processed by Equal Channel Angular Extrusion
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HomeMaterials Science ForumMaterials Science Forum Vols. 551-552Cavitation Behavior of Fine-Grained 1420 Al-Li...

Cavitation Behavior of Fine-Grained 1420 Al-Li Alloy during Superplastic Deformation

Abstract:

This paper deals with the cavity formation and growth behavior of fine-grained 1420 Al-Li alloy during superplastic forming. The results indicated that there were many sub-micron cavities pre-existing at the particle-matrix interface and these sub-micron cavities grew initially under deformation. Different from uniaxial tension, the cavities nucleation under biaxial tension was combinable effect of stress concentration and matrix/particle de-cohesion. With the strain and temperature increasing, the total number and the average size of cavities increased. By the calculations, it was seen that diffusional growth process dominates the initial stage of void growth, and for void radii>~1.7μm, void growth was mainly controlled by plasticity.

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Materials Science Forum (Volumes 551-552)

Pages:

633-638

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.551-552.633

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Online since:

July 2007

Authors:

Jie Shao, He Ping Guo, Zhi Qiang Li, X.Q. Han

Keywords:

Cavity, Fine Grained 1420 Al-Li Alloy, Second Phase Particle, Super Plastic Forming (SPF)

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