The book presents practical and theoretical works on superplasticity in metals and ceramics, on deformation mechanisms, on processes to obtain large ultrafine-grained structures, on advanced characterization techniques, and on hot deformation of advanced materials. Key papers focus on (1) processing of metallic alloys for achieving exceptional superplastic properties, (2) high-pressure sliding (HPS) processes, (3) in-situ neutron and synchrotron methods, and (4) ultra-severe plastic deformation.
Table of Contents
New developments in the processing of metallic alloys for achieving exceptional superplastic properties
Achieving superplasticity in hard-to-deform metallic materials using high-pressure sliding (HPS) process
In-situ neutron and synchrotron methods for the investigation of plastic deformation and annealing in metals
Ultra-severe plastic deformation for room-temperature superplasticity and superfunctionality
An investigation of forming of Ti-6Al-4V at lower temperatures
Fabrication and superplastic forming property research of TiB whisker-reinforced titanium alloy matrix composite sheet
Superplasticity of Ti-6Al-7Nb alloys with different initial microstructures processed by high-pressure torsion
Precise forming of Ti60 alloy by superplastic forming /diffusion bonding
Numerical simulation and experimental trials on superplastic forming for thin-walled structure of Ti2AINb alloy
Effect of friction stir forming parameters on mechanical properties and plastic flow of material in the mechanical interlocking of optical fiber and SP-700 superplastic titanium alloy