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Assessment of tensile behaviour of an Al–Mg alloy composite reinforced with NiAl and oxidized NiAl powder particles helped by nanoindentation

机译：纳米压痕法评估NiAl和氧化的NiAl粉末颗粒增强的Al-Mg合金复合材料的拉伸性能

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AA5056 matrix composites have been reinforced with as-received and oxidizedNiAlparticles and their nanohardness investigated as a function of distance to reinforcement. Results indicate that a non-heat treatable aluminium matrix, as is the present case, does not require that the intermetallic particles are surrounding by a protective Al2O3 layer to avoid reactions at matrix-reinforcement interfaces. On the other hand, the quality of the matrix-reinforcement bonding has been quantified by the reinforcement influence distance, defined as the distance from the particle at which the nanohardness of the matrix drops to its asymptotic value

机译：AA5056基体复合材料已经被接受和氧化的NiAl颗粒增强，并且研究了其纳米硬度随增强距离的变化。结果表明，与目前情况一样，不可热处理的铝基体不需要金属间化合物颗粒被保护性的Al2O3层包围，从而避免了基体-增强界面处的反应。另一方面，基体-增强结合的质量已通过增强影响距离来量化，该距离定义为从基体的纳米硬度下降到其渐近值的粒子的距离。

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Pour, H.A.; Lieblich, Marcela; López, A.J.; Rams, J.; Salehi, M. T.; Shabestari, S.G.;
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年度 2007
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机译：NiAl和SiC颗粒增强铝合金基复合材料的耐滑动磨损性能
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机译：NiAl粉末合金：II。压实各种方法生产的NiAl粉末
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机译：NiAl粉末合金：I. NiAl粉末的生产
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机译：Nial-20Tib {sub} 2和Nial-20tic原位复合材料的拉伸性能和微观结构
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机译：铝化镍（NiAl）复合材料的增韧。
6. Elevated Temperature Tensile Creep Behavior of Aluminum Borate Whisker-Reinforced Aluminum Alloy Composites (ABOw/Al–12Si) [O] . Yameng Ji, Yanpeng Yuan, Weizheng Zhang, 2021

机译：铝硼酸铝晶须增强铝合金复合材料升高的温度拉伸蠕变行为（ABOW / AL-12SI）
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机译：镍铝加固氧化铝（Al2O3南部）复合材料的力学行为

Assessment of tensile behaviour of an Al–Mg alloy composite reinforced with NiAl and oxidized NiAl powder particles helped by nanoindentation

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