Taylor Caitlin A, Lang Eric, Kotula Paul G, Goeke Ronald, Snow Clark S, Wang Yongqiang, Hattar Khalid
Materials Science and Technology Division, Los Alamos National Laboratory, Los Alamos, NM 87545, USA.
Component Science, Engineering, and Production Center, Sandia National Laboratories, Albuquerque, NM 87185, USA.
Materials (Basel). 2021 Sep 18;14(18):5393. doi: 10.3390/ma14185393.
Helium is insoluble in most metals and precipitates out to form nanoscale bubbles when the concentration is greater than 1 at.%, which can alter the material properties. Introducing controlled defects such as multilayer interfaces may offer some level of helium bubble management. This study investigates the effects of multilayered composites on helium behavior in ion-implanted, multilayered ErD/Mo thin film composites. Following in-situ and ex-situ helium implantation, scanning and transmission electron microscopy showed the development of spherical helium bubbles within the matrix, but primarily at the layer interfaces. Bubble linkage and surface blistering is observed after high fluence ex-situ helium implantation. These results show the ability of metallic multilayers to alter helium bubble distributions even in the presence of a hydride layer, increasing the lifetime of materials in helium environments.
氦在大多数金属中不溶,当浓度大于1原子百分比时会析出形成纳米级气泡,这会改变材料性能。引入诸如多层界面等可控缺陷可能会在一定程度上实现对氦气泡的管理。本研究调查了多层复合材料对离子注入的多层ErD/Mo薄膜复合材料中氦行为的影响。在进行原位和非原位氦注入后,扫描电子显微镜和透射电子显微镜显示在基体中形成了球形氦气泡,但主要是在层界面处。在高通量非原位氦注入后观察到气泡连接和表面起泡现象。这些结果表明,即使存在氢化物层,金属多层结构仍有能力改变氦气泡分布,从而延长材料在氦环境中的寿命。