Impacts of accelerated aging on the mechanical properties of Cu-Nb nanolaminates

Economy D.R.; Schultz B.M.; Kennedy M.S.

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Impacts of accelerated aging on the mechanical properties of Cu-Nb nanolaminates

机译：加速老化对Cu-Nb纳米层压板力学性能的影响

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Accelerated aging (30 min at 400 °C) has been shown to alter the mechanical properties of Cu-Nb nanolaminate systems. The Cu-Nb nanolaminates produced were 1,000-nmthickwith alternating 20 or 100-nm-thick individual layers, which were fabricated by magnetron sputter deposition. Unaged Cu-Nb systems increased in hardness (from 4.3 to 5.5 GPa) with decreasing layer thickness. After aging, the nanolaminates with 20 nm layers softened greatly (5.5 GPa decreased to as little as 1.3 GPa), yet nanolaminates with 100 nm layers hardened slightly (4.3-4.8 GPa). Both nanolaminate structures exhibited significant residual tensile stress, which was further increased by up to 70 % (100 nm layers) and 120 % (20 nm layers) after accelerated aging. X-ray diffraction showed the presence of primary textures and high stress in niobium layers for unaged systems.

机译：加速老化（在400°C下30分钟）已显示出会改变Cu-Nb纳米层压板系统的机械性能。产生的Cu-Nb纳米层压板厚度为1,000-nm，具有交替的20或100-nm的独立层，这些层是通过磁控溅射沉积法制成的。未老化的Cu-Nb系统的硬度随层厚度的减小而增加（从4.3 GPa到5.5 GPa）。老化后，具有20 nm层的纳米层压板大大软化（5.5 GPa降低至低至1.3 GPa），而具有100 nm层的纳米层压板则略微硬化（4.3-4.8 GPa）。两种纳米层压结构均表现出显着的残余拉伸应力，在加速老化后，残余拉伸应力进一步增加了多达70％（100 nm层）和120％（20 nm层）。 X射线衍射表明，对于未老化的系统，铌层中存在主要织构和高应力。

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《Journal of Materials Science 》 |2012年第19期| 共6页
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Economy D.R.; Schultz B.M.; Kennedy M.S.;
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1. Impacts of accelerated aging on the mechanical properties of Cu-Nb nanolaminates [J] . Economy D.R., Schultz B.M., Kennedy M.S. Journal of Materials Science . 2012 ,第19期

机译：加速老化对Cu-Nb纳米层压板力学性能的影响
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3. Nanomechanical properties of mechanically alloyed and spark plasma sintered W-nanoparticulate dispersed Cu-Nb alloys [J] . Chakraborty S., Gupta A. K., Roy D., Materials Letters . 2020 ,第Sepa1期

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5. Characterization of the mechanical properties of niobium/niobium-silicon microlaminates and self-propagating exothermic reactions in aluminum/nickel nanolaminates. [D] . Gavens, Andrew Jay. 1999

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Impacts of accelerated aging on the mechanical properties of Cu-Nb nanolaminates

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