首页|Effects of hot-rolling on secondary electron yield properties of Cu-2.7Be alloy
Effects of hot-rolling on secondary electron yield properties of Cu-2.7Be alloy
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NSTL
Elsevier
? 2022The effects of hot-rolling on the secondary electron property evolution of activated Cu-2.7Be sheets were investigated in this study. The microstructures of both pristine and activated Cu-2.7Be alloys subjected to different hot-rolling temperatures were characterized. Their phase compositions were found to comprise an α matrix and eutectoid phases (α + γ). Using electron back-scattered diffraction, the initial average grain size (d0) was found to vary from 6.45 μm to 15.63 μm as the hot-rolling temperature increased from 680 °C to 830 °C. Scanning electron microscopy and X-ray photoelectron spectroscopy studies of the activated Cu-2.7Be sheets revealed that the amount of BeO increased with a decrease in the average grain size, resulting in the enhancement of the peak secondary electron emission yield. Scanning Kelvin probe force microscopy measurements confirmed that the main contributor to the BeO enhancement was the α matrix, while transmission electron microscopy analysis showed that BeO formed preferentially from sub-grain boundaries, indicating the importance of grain boundaries for BeO formation. Moreover, the peak secondary electron yield (δm) exhibited a linear relationship with d0?0.5 similar to the Hall-Petch relation. The results in this study will be important for enhancing the secondary electron yield of Cu-Be dynodes used in photomultiplier tubes and electron multipliers.
Cu-2.7Be alloyGrain boundaryHot-rollingSecondary electron emissionSKPFMXPS
NSTL
Elsevier
