Yajun Zhao scite author profile

Iron powder was compacted successfully into a solid disk by a severe plastic deformation processthe high pressure torsion (HPT)at room temperature. The compaction was done in two steps: first axial compaction, then shear deformation by rotating the bottom part of the HPT die while maintaining the axial force constant. The homogeneity of shear strain across the thickness of the disk was examined by local strain measurement, showing a gradient distribution. The strain gradient leads to the formation of three regions throughout the thickness of the disk: Region U, that is undeformed in torsion (top partin contact with the fixed punch), Region T, that is a transition or intermediate region where the shear strain is increasing, and Region S, which is severely deformed (bottom partin contact with the rotating die) which is uniformly and heavily sheared. The observation of microstructure and Vickers hardness in the three regions showed a non-uniform distribution, corresponding to the strain gradient. Crystallographic texture measurements confirmed the presence of a typical shear texture with increasing strength in Regions T and S. Stress-strain curve was obtained from the local shear strain and microhardness measurements. The strain hardening curve of the HPT-compacted pure iron showed higher flow stress than the torsion deformed solid pure iron (IF steel). Y. Zhao et al./Gradient Structure in High Pressure Torsion… ADVANCED ENGINEERING MATERIALS 2015, 17, No. 12

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Yajun Zhao

Effect of initial powder type on the hydrogen storage properties of high-pressure torsion consolidated Mg

Gradient Structure in High Pressure Torsion Compacted Iron Powder

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