Stability of ultrafine-grained microstructure in fcc metals processed by severe plastic deformation

机译：严重塑性变形加工FCC金属中超细粒化微观结构的稳定性

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The thermal stability of ultrafine-grained (UFG) microstructure in face centered cubic metals processed by severe plastic deformation (SPD) was studied. The influence of the SPD procedure on the stability was investigated for Cu samples processed by Equal-Channel Angular Pressing (ECAP), High-Pressure Torsion (HPT), Multi-Directional Forging and Twist Extrusion at room temperature (RT). It is found that HPT results in the lowest thermal stability due to the very high dislocation density. Furthermore, the effect of the low stacking fault energy of Ag on the stability is also investigated. It is revealed that the UFG microstructure produced in Ag by ECAP is recovered and recrystallized during storage at room temperature. The driving force for this unusual recovery and recrystallization is the high dislocation density developed during ECAP due to the high degree of dislocation dissociation caused by the very low stacking fault energy of Ag.

机译：研究了通过严重塑性变形（SPD）处理的面对中心立方金属中超细粒度（UFG）微观结构的热稳定性。通过在室温（室温（RT）在室温（RT）下，研究了SPD程序对稳定性对稳定性的影响，用于在室温（RT）的高压扭转（HPT），多向锻造和扭曲挤出。结果发现，由于脱位密度非常高，HPT导致最低的热稳定性。此外，还研究了AG对稳定性的低堆叠故障能量的影响。揭示了在室温下储存期间通过ECAP中产生的Ag产生的UFG微观结构并重结晶。这种异常恢复和重结晶的驱动力是由于AG的非常低的堆叠故障能量引起的高度位错解离，在ECAP期间开发的高位错密度。

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《International Conference on Materials Structure and Micromechanics of Francture》|2011年||共4页
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J. Gubicza; N. Q. Chinh; S. V. Dobatkin;
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中图分类 TB3-532;
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Severe plastic deformation (SPD); Ultrafine-grained fcc metals; Recovery and recrystallization; Dislocations; Twins.;

机译：严重的塑性变形（SPD）;超细粒化FCC金属;恢复和重结晶;脱位;双胞胎。;

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Stability of ultrafine-grained microstructure in fcc metals processed by severe plastic deformation

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