In order to improve the filling ability of large complex thin wall castings, the pouring temperature should be increased, but this will result in the grain coarsening. To overcome this problem, two kinds of grain refi...In order to improve the filling ability of large complex thin wall castings, the pouring temperature should be increased, but this will result in the grain coarsening. To overcome this problem, two kinds of grain refiners of Co-Fe-Nb and Cr-Fe-Nb ternary alloys, which contain high stability compound particles, were prepared. The effects of the refiners on the as-cast structures and tensile properties of the K4169 superalloy with different casting conditions were studied by analyzing specimens 110 mm long and 20 mm in diameter.Results showed that the mixture addition of the two refiners in the melt of K4169 can reduce the columnar grain region and decrease the equiaxed grain size greatly. After refinement, the amount of Laves phase decreases and its morphology changes from island to blocky structure. The carbides in the fine grain samples are fine and dispersive. Meanwhile, the porosity in specimens is decreased due to grain refinement. As a result, the yield strength, ultimate strength and the elongation of the specimens are increased. The grain refinement mechanisms are also discussed.展开更多
Avalanche-photodiode-based near-infrared single-photon detectors have seen rapid development in the last two decades because of their enormous internal gain,high sensitivity,fast response,small vol-ume,and ease of int...Avalanche-photodiode-based near-infrared single-photon detectors have seen rapid development in the last two decades because of their enormous internal gain,high sensitivity,fast response,small vol-ume,and ease of integration.The InGaAs/InP near-infrared single-photon detector is the most widely used avalanche diode at present.Its device performance is still being continuously improved through the optimization of device structure and external quenching circuits.This paper analyzes the latest development and application of these InGaAs/InP photodiodes,then briefly re views other near-infrared single-photon detection technologies based on new materials and new mechanisms.展开更多
基金financially supported by the Aeronautical Science Foundation of China(No.2015ZE53059)the NPU Foundation for Fundamental Research(NPU-FFR-3102014JCQ01022)the Natural fund project of the Education Department of Shaanxi Province(No.14JK2052)
文摘In order to improve the filling ability of large complex thin wall castings, the pouring temperature should be increased, but this will result in the grain coarsening. To overcome this problem, two kinds of grain refiners of Co-Fe-Nb and Cr-Fe-Nb ternary alloys, which contain high stability compound particles, were prepared. The effects of the refiners on the as-cast structures and tensile properties of the K4169 superalloy with different casting conditions were studied by analyzing specimens 110 mm long and 20 mm in diameter.Results showed that the mixture addition of the two refiners in the melt of K4169 can reduce the columnar grain region and decrease the equiaxed grain size greatly. After refinement, the amount of Laves phase decreases and its morphology changes from island to blocky structure. The carbides in the fine grain samples are fine and dispersive. Meanwhile, the porosity in specimens is decreased due to grain refinement. As a result, the yield strength, ultimate strength and the elongation of the specimens are increased. The grain refinement mechanisms are also discussed.
基金supported by the Major Science and Technology Project of Yunnan province(Grant No.2018ZI002)。
文摘Avalanche-photodiode-based near-infrared single-photon detectors have seen rapid development in the last two decades because of their enormous internal gain,high sensitivity,fast response,small vol-ume,and ease of integration.The InGaAs/InP near-infrared single-photon detector is the most widely used avalanche diode at present.Its device performance is still being continuously improved through the optimization of device structure and external quenching circuits.This paper analyzes the latest development and application of these InGaAs/InP photodiodes,then briefly re views other near-infrared single-photon detection technologies based on new materials and new mechanisms.