Experimental Study of the Mechanical Behavior of Materials under Transient Regimes of Superplastic Deforming

Abstract: Transient regimes of deforming are always present in any technological process and can be taken into account and used more widely if properly studied. The behavior of the materials under such regimes is becoming even more interesting if initial microstructure is coarse grained and undergoes transformation in the process of deforming. One of the transient processes which happen in any Superplastic deformation is the initial stage of loading, before steady superplastic flow starts. Initial parts of stress-strain… Show more

“…If we know at a point of material strain, strain rate and temperature we always getting unique value of stress – no matter what kind of pre‐loading was there. But even in uniaxial experiments with the strain rate jumps have shown, that current behavior of the material depends on the previous strain rate history . It is also obvious that properties will depend on the history of thermal treatment.…”

An approach for modeling the active transformation of microstructure of two‐phase Alloys in FEM simulation of technological chains in superplastic forming (SPF)

“…If we know at a point of material strain, strain rate and temperature we always getting unique value of stress – no matter what kind of pre‐loading was there. But even in uniaxial experiments with the strain rate jumps have shown, that current behavior of the material depends on the previous strain rate history . It is also obvious that properties will depend on the history of thermal treatment.…”

An approach for modeling the active transformation of microstructure of two‐phase Alloys in FEM simulation of technological chains in superplastic forming (SPF)

On the microstructural behavior of titanium alloy during nonoptimal regime of superplastic deformation

Experimental study of the inelastic behavior of materials