通过等离子氮化提高铝镁硅研究反应堆材料的安全性和耐久性

B. Pribadi, Dwi Priyantoro, Shokhul Lutfi, T. Sujitno
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引用次数: 0

摘要

本研究的重点是通过使用等离子氮化方法进行表面硬化,提高研究堆燃料包层/结构材料 AlMgSi 的安全性和耐用性。目的是提高材料的抗腐蚀性,同时保持其在核反应堆条件下的完整性。铝镁硅样品在 448 K 下氮化了不同的时间,表面硬度最高的工件接受了腐蚀和成分测试。结果表明,在 448 开尔文下进行 3 小时等离子氮化后,表面硬度明显提高了 49%(从 62.35 VHN 提高到 92.79 VHN),腐蚀速率显著降低了 69%(从 11.22 mpy 降低到 3.51 mpy)。 亮点 表面硬度显著提高:在 448 K 温度下进行 3 小时等离子氮化处理后,表面硬度显著提高了 49%,增强了材料的抗磨损和抗变形能力。 有效的防腐蚀保护:经等离子氮化处理的 AlMgSi 的腐蚀率明显降低了 69%,确保了材料在恶劣的反应堆环境下的使用寿命和安全性。 氮含量提高:氮化处理后,铝镁硅合金中的氮原子含量从 0% 增加到 5.13%,从而提高了材料的机械和化学性能。
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Enhancing Safety and Durability of AlMgSi Research Reactor Material through Plasma Nitriding
This study focuses on enhancing the safety and durability of AlMgSi, a research reactor fuel cladding/structural material, through surface hardening using the plasma nitriding method. The goal is to improve the material's resistance to corrosion while maintaining its integrity under nuclear reactor conditions. AlMgSi samples were nitrided at 448 K for varying times, and the workpiece with the highest surface hardness underwent corrosion and composition tests. The results demonstrated a significant increase in surface hardness by 49% (from 62.35 VHN to 92.79 VHN) and a notable reduction in corrosion rate by 69% (from 11.22 mpy to 3.51 mpy) after plasma nitriding for 3 hours at 448 kelvin. Highlights: Significantly improved surface hardness: Plasma nitriding at 448 K for 3 hours resulted in a remarkable 49% increase in surface hardness, enhancing the material's resistance to wear and deformation. Effective corrosion protection: The plasma-nitrided AlMgSi exhibited a notable 69% decrease in corrosion rate, ensuring the material's longevity and safety under harsh reactor environments. Enhanced nitrogen content: The nitrogen content in AlMgSi increased from 0 to 5.13% atoms after the nitriding process, contributing to the material's improved mechanical and chemical properties.
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