Uwa O. Uyor , Abimbola P.I. Popoola , Olawale M. Popoola
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引用次数: 0
摘要
本研究深入探讨了采用 SPS(火花等离子烧结)生产工艺加工的 HEA(高熵合金)的腐蚀行为。研究人员将 HEA 暴露于室温和 50 °C 下的酸性和盐性介质中,探索了 HEA 的腐蚀特性。随后,使用扫描电子显微镜(SEM)分析了腐蚀对制造的 HEA 的影响。OCP(开路电位)和 PDP(电位极化)分析用于测量 SPSed HEA 对腐蚀环境的敏感性。OCP 和 PDP 结果表明,在 1000°C 下生产的高熵合金在两种介质和温度下的腐蚀率都最低,而在 700°C 下生产的高熵合金的腐蚀率最高。这些研究结果表明,在 1000°C 温度下生产的高熵合金最适合用于对侵蚀性环境有较高耐受性要求的技术应用。暴露于侵蚀性环境后腐蚀表面的扫描电镜图像证实了这些结论。
Exploring the corrosion resistance of the Ti20-Al20-V20-Fe20-Ni20 high-entropy alloy fabricated through spark plasma sintering
This study delves into investigating the corrosion behavior of HEAs (high entropy alloys) processed by the SPS (spark plasma sintering) production route The corrosion characteristics of the HEAs were explored by exposing them to acidic and salt media at both room temperature and 50 °C. Subsequently, The SEM (Scanning Electron Microscope) was employed in analyzing the impact of corrosion on the manufactured HEAs. OCP (open circuit potential) and PDP (potentiodynamic polarization) analyses were employed to gauge the susceptibility of the SPSed HEAs to corrosive environments. The OCP and PDP results demonstrated that the high entropy alloy produced at 1000°C had the lowest corrosion rates in both media and temperatures, whereas the one produced at 700°C displayed the highest corrosion rates. These findings suggest that the high entropy alloy produced at 1000°C is optimal for technological applications requiring high resistance to aggressive environments. The SEM images of corroded surfaces following exposure to aggressive environments substantiate these conclusions.
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