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The flow stress features of MB26 magnesium alloy were studied by isothermal compression at 300-450 ℃ and strain rate of 0.001^-1 s J with Gleeble 1500 thermal simulator. In addition, the deformation activation energy Q was calculated. The results show that the strain rate and deformation temperature have obvious effect on the true stress. The peak value of flow stress becomes larger with increasing strain rate at the same temperature, and gets smaller with the increasing deformation temperature at the same strain rate. The alloy shows partial dynamic recrystallization. The flow stress of MB26 magnesium alloy during high temperature deformation can be represented by Zener-Hollomon parameter including the Arrhemius term. The temperatt, re range of 350-400℃ is suggested for hot-forming of this alloy. 相似文献
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研究挤压比及时效处理对Mg-6Zn-1Zr-1.5Y合金组织及力学性能的影响规律,初步分析了该合金在形变热处理过程中的强化机制。结果表明:随着挤压比增加,其延伸率逐渐升高,而其强度则先升高后下降;时效处理后,挤压比λ=10的棒材的强度和延伸率都有所下降,λ=13的棒材强度和延伸率都有所升高,λ=25的棒材的强度提高而延伸率降低。该合金的主要强化机制包括:细晶强化,加工硬化和时效强化;合金热挤压后的性能取决于细晶强化和加工硬化的交互作用,时效后的性能取决于时效强化与加工硬化的交互作用。 相似文献
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为了满足航天飞行器对结构减重的迫切需求,推动变形镁合金在航天飞行器上的应用,采用力学性能测试及显微组织分析的方法对高强耐热镁合金工业级大型锻件进行了研究。研究结果表明:锻前固溶处理不能完全消除晶间稀土元素的偏析,这些稀土元素最终以Mg24Y5、Mg5Gd等相的形式保留下来,并呈现出颗粒形态;锻环力学性能的各向异性随着变形温度的提高而降低;低于250 ℃时,该合金的断口呈现出准解理和韧性撕裂的混合特征,随着温度的升高,韧性断裂的比重逐渐加大,当变形温度提高到300 ℃时,呈现出韧窝聚集形断裂特征。 相似文献
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