Effect of preoxidation and grain size on ductility of a boron-doped Ni3Al at elevated temperatures

Acta Metallurgica Pub Date : 1989-10-01 DOI:10.1016/0001-6160(89)90301-5

M. Takeyama, C.T. Liu

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Abstract

The ductility of a preoxidized Ni₃Al (Ni-23Al-0.5Hf-0.2B. at.%) alloy with various grain sizes (17–193 μm) was evaluated by means of tensile tests at 600 and 760°C in vacuum. The preoxidation does not affect the ductility of the finest-grained material at either temperature, whereas it causes severe embrittiement in the largest-grained material, especially at 760°C. Auger studies revealed very little oxygen penetration along grain boundaries in the finest-grained material but substantial oxygen penetration in the largest-grained one. A continuous, thin Al-rich oxide layer which forms on the fine-grained samples protects the underlying alloy from oxygen penetration, preventing any loss of ductility, whereas the nickel-rich oxide which forms on the large-grained samples allows oxygen to penetrate along grain boundaries, causing severe embrittiement. The grain boundaries act as short-circuit paths for rapid diffusion of aluminum atoms from the bulk to the surfaces, and this is responsible for the change in oxidation product from Ni-rich to Al-rich oxide with decreasing grain size.

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预氧化和晶粒尺寸对硼掺杂Ni3Al高温塑性的影响

预氧化Ni3Al (Ni-23Al-0.5Hf-0.2B)的延展性。通过600和760℃真空拉伸试验，对不同晶粒尺寸(17-193 μm)的at.%合金进行了性能评价。预氧化在任何温度下都不会影响晶粒细的材料的延展性，而在晶粒大的材料中，预氧化会导致严重的脆化，尤其是在760℃时。俄歇研究表明，在晶粒最细的材料中，沿晶界的氧气渗透很少，但在晶粒最大的材料中，氧气渗透却很大。在细晶粒样品上形成的连续的、薄的富铝氧化层保护下面的合金不受氧渗透，防止任何延展性的损失，而在大晶粒样品上形成的富镍氧化物允许氧沿着晶界渗透，导致严重的脆化。晶界充当了铝原子从体向表面快速扩散的短路通道，这是随着晶粒尺寸的减小，氧化产物从富镍氧化物转变为富铝氧化物的原因。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Acta Metallurgica

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