Equal-Channel Angular Pressing as a Production Tool for Superplastic Materials
p.471
p.471
Refinement and Stability of Grain Structure
p.477
p.477
Using Severe Plastic Deformation for Grain Refinement and Superplasticity
p.489
p.489
Tensile Superplasticity in Nanomaterials - Some Observations and Reflections
p.499
p.499
Friction Stir Processing: A New Grain Refinement Technique to Achieve High Strain Rate Superplasticity in Commercial Alloys
p.507
p.507
High Strain Rate Superplastic Deformation in 6061 Alloy with 1% SiO2 Nano-Particles
p.515
p.515
An Investigation of Cavity Development in a Superplastic Aluminium Alloy Prepared by Equal-Channel Angular Pressing
p.521
p.521
Industrial Superplastic Forming Research and Application for Commercial Aircraft Components at Israel Aircraft Industries
p.527
p.527
Superplastic Alumina Ceramics Dispersed with Zirconia and Spinel Particles
p.533
p.533
Friction Stir Processing: A New Grain Refinement Technique to Achieve High Strain Rate Superplasticity in Commercial Alloys
Abstract:
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Info:
Periodical:
Materials Science Forum (Volumes 357-359)
Pages:
507-514
Citation:
Online since:
January 2001
Authors:
Price:
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