quasisuperplastic

Quasi-superplastic, or quasi-superplasticity, is a term used in materials science to describe a deformation regime in which a material exhibits ductility comparable to that seen in superplasticity, but under conditions that do not meet the strict criteria of classical superplasticity. In this regime, metals and some other materials can undergo substantial plastic deformation at elevated temperatures and at strain rates that are higher than those typically associated with true superplasticity.

The behavior is often attributed to a combination of mechanisms that promote easy flow at high temperatures,

Quasi-superplastic behavior has been reported in a variety of metals, including certain aluminum, magnesium, and titanium

Applications of quasi-superplasticity focus on forming complex shapes and components with reduced tooling and processing times,