Mg-9Gd-4Y-0.6Zr合金-196 ~ 400℃断裂机理分析

Journal of Materials Engineering Pub Date : 2007-01-01 DOI:10.4028/0-87849-432-4.261

Z. Xinming

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引用次数: 0

摘要

用光学显微镜和扫描电镜分别观察了Mg-9Gd-4Y-0.6Zr合金试样在不同温度下拉伸后的断口形貌。结果表明，不同的滑移体系在不同的温度下被激活，导致了不同的变形机制和断裂机制。在25℃时，激活的滑移体系数量较少，只激活了基面滑移体系，出现了穿晶解理断裂。在-196℃时，使能滑移体系数量增加，可能出现棱柱滑移，并出现低温塑性现象，断裂机制为微孔聚结断裂。在250、300和350℃时，合金在基面、棱柱面和锥体面发生多体系滑移，断裂机制为微孔聚结断裂。在400℃时发生再结晶，细小的再结晶晶粒易发生晶界滑移变形，称为粗晶超塑性现象，并发生晶间剪切断裂。

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Fracture Mechanism Analysis of Mg-9Gd-4Y-0.6Zr Alloy from -196℃ to 400℃

The fractography of Mg-9Gd-4Y-0.6Zr alloy specimens which were tensioned at different temperatures was observed by optical and scanning electron microscopy, respectively. The results showed that different slip systems were activated at different temperatures, which was responsible for varied deformation mechanism and fracture mechanism. At 25℃, the number of enabled slip systems were few and only slip systems on basal plane were activated, and transgranular cleavage fracture was observed. At -196℃,the number of enabled slip systems increased, prismatic slips maybe occurred and low-temperature plasticity phenomenon happened, while fracture mechanism was microviod coalescence fracture. At 250, 300℃ and 350℃, multisystem slips on basal planes, prismatic planes and pyramidal planes were activated in this alloy, while fracture mechanism was also microviod coalescence fracture. At 400℃, recrystallization happened and grain-boundary sliding in new fine recrystallized grains could deform easily,which was called coarse-grain superplasticity phenomenon, and intergranular shear fracture took place.

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Journal of Materials Engineering

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