辉光等离子体氮化铀表面的氢腐蚀  被引量:5

Hydriding Behavior of Glow-Discharge Plasma Nitrided Uranium Surface

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作  者:宾韧[1] 刘柯钊[1] 陈林[2] 白彬[2] 钟永强[2] 

机构地区:[1]表面物理与化学重点实验室,四川绵阳621907 [2]中国工程物理研究院,四川绵阳621900

出  处:《原子能科学技术》2012年第7期775-779,共5页Atomic Energy Science and Technology

摘  要:采用辉光等离子体氮化方法制备铀表面氮化样品。俄歇电子能谱和X射线衍射对样品的分析表明,铀表面形成了厚约250nm、主要成分为α-U2N3+x的氮化层,氮化层与基体之间具有平缓的过渡层,且氮在金属铀的基体内有一定扩散。与轻微氧化样品氢腐蚀的对比实验表明,氮化处理使样品表面缺陷密度减少,改性层对氢吸附、扩散有阻挡作用,氢蚀形核较慢且其生长明显受到改性层的抑制,这表明铀表面辉光等离子体氮化可作为延缓氢腐蚀的有效手段。Surface nitrided uranium was prepared using glow-discharge plasma nitriding method. The surface layer was examined and a comparison between surface nitrided and oxidized against hydrogen corrosion was monitored with a digital microscope. AES depth profile and XRD spectrum show that the surface-nitrided layer is about 250 nm in sputtering depth and mainly consists of α-U2N3+x, with a mild nitride-substrate interface and nitrogen diffuses into the metal bulk. SEM micrographs show that pulsed glow-discharge plasma nitriding can reduce the number of polishing scratches and other defects. Surface nitride layer retards hydrogen diffusion into bulk, delays the nucleation and restrains hydride growth. Glow-discharge plasma nitriding can passivate uranium surface against hydrogen corrosion effectively.

关 键 词:表面改性 辉光等离子体氮化 U2N3 氢蚀 

分 类 号:TG174.43[金属学及工艺—金属表面处理]

 

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