4.5 Review

Advances in Superplasticity from a Laboratory Curiosity to the Development of a Superplastic Forming Industry

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Summary: Superplastic Pb-Sn alloys with exceptional elongation were produced via tube high-pressure shearing (t-HPS) starting from elemental solid bulks. This unprecedented room temperature superplasticity is attributed to equiaxed grains and well-mixed Pb and Sn domains in nearly equal proportions.

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Summary: This paper investigated the fabrication process and results of a four-layer hollow structure using the superplastic forming/diffusion bonding (SPF/DB) process. It was found that the TA15 alloy showed good superplastic behavior at high temperatures, enabling the fabrication of complex-shaped structures with sound bonding interfaces. Additionally, the compressive strength and maximum bending load of the four-layer structure were determined to be 50 MPa and 64.4 kN, respectively.

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Principles of severe plastic deformation using tube high-pressure shearing

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Terence G. Langdon

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Experimental parameters influencing grain refinement and microstructural evolution during high-pressure torsion

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Orientation imaging microscopy of ultrafine-grained nickel

AP Zhilyaev et al.

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Superplastic forming at high strain rates after severe plastic deformation

Z Horita et al.

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