Hydrogen-Related Properties of the Pd71.5Cu12Si16.5 Metallic Glass

IF 0.6 4区材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY 稀有金属材料与工程 Pub Date : 2018-12-01 DOI:10.1016/S1875-5372(19)30009-8

Du Xiaoqing, Ye Xiaoqiu, Zhang Guikai, Ren Qingbo

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引用次数: 1

Abstract

The Pd_71.5Cu₁₂Si_16.5 metallic glass was synthesized as wide ribbons by arc melting and copper roller spinning. The structures were determined by X-ray diffraction patterns using the conventional X-ray diffractometer and short wavelength X-ray stress analyzer, and the fully glassy state of the ribbons is confirmed. Multiple hydrogen absorption and desorption cycles at room temperature under 100 kPa were carried out on the samples. No destruction after more than 10 cycles is observed, which demonstrates good hydrogen embrittlement resistance. The hydrogen permeation properties of the Pd_71.5Cu₁₂Si_16.5 metallic glass and its crystallized counterpart were further tested using a direct permeation method. In the supercooled liquid region, the hydrogen permeation rate is obviously higher for the metallic glass form, which could be explained by the increasing free volumes introduced during isothermal stage in this range.

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Pd71.5Cu12Si16.5金属玻璃的氢相关性质

采用电弧熔炼和铜辊纺丝法制备了Pd71.5Cu12Si16.5宽带状金属玻璃。利用传统的x射线衍射仪和短波x射线应力分析仪对其结构进行了x射线衍射图分析，证实了带的全玻璃态。在100 kPa的室温条件下对样品进行多次吸氢和解吸循环。循环10次以上未见破坏现象，具有良好的抗氢脆性能。采用直接渗透法进一步测试了Pd71.5Cu12Si16.5金属玻璃及其晶化金属玻璃的氢渗透性能。在过冷液区，金属玻璃形式的氢渗透速率明显更高，这可以解释为等温阶段在该范围内引入的自由体积增加。

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