Abstract:The microstructure, hardness evolution, and thermal stability of mechanically alloyed (MA-ed) nanocrystalline Cu-10 wt %Nb solid solution during heat treatment were examined using X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), high-resolution TEM (HRTEM) observations, and microhardness measurement. It is found that the pronounced precipitation of Nb from the Cu-Nb supersaturated solid solution occurs at temperatures up to 700 • C, and the annealed alloy shows a bi-nanostructure with Nb nanoparticles dispersed in the nanocrystalline Cu matrix. The bi-nanostructure remains stable with Cu crystalline grain size below 100 nm and Nb particle size around 10 nm even after annealing at 900 • C for 3 h. The microhardness of the annealed sample shows a small increase after annealing at 400 • C, and then it shows a slow decreasing trend with further increasing temperatures. With the help of the kinetics analyses, it is found that the coarsening of the stable Nb nanoparticles is controlled by volume diffusion. The enhanced stability of the nanocrystalline Cu microstructure is mainly attributed to the solute drag and precipitate pinning effects.
The effects of Tm 3+ concentration on upconversion emission and temperaturesensing behavior of Tm 3+ /Yb 3+ :Y 2 O 3 nanocrystals were investigated. Blue and red emissions were observed under 980 nm excitation. Both upconversion emissions and the blue to red intensity ratio were found to decrease with increasing Tm 3+ concentration. The temperature-sensing performances of the samples were studied, the fluorescence intensity ratio of 1 G 4(a) → 3 H 6 (477 nm) and 1 G 4(b) → 3 H 6 (490 nm) transitions from Tm 3+ ions was chosen as the thermometric index. The results showed that the sensor sensitivity was sensitive to Tm 3+ ion concentration. The maximum sensitivity of~32 × 10 −4 K −1 was obtained for 0.1%Tm 3+ /5%Yb 3+ :Y 2 O 3 nanocrystals at 344 K. Moreover, a marked optical induced heating effect was also found in the nanocrystals. The prepared Tm 3+ /Yb 3+ :Y 2 O 3 nanocrystals could be used in temperature-sensing probes and in optical heaters.
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