Using high aluminum refractory material as substrate at 1400℃, we studied the connections between several oxides such as Fe203, MnOv CuO, and the formation of defects such as coating crack, exfoliation, blistering, e...Using high aluminum refractory material as substrate at 1400℃, we studied the connections between several oxides such as Fe203, MnOv CuO, and the formation of defects such as coating crack, exfoliation, blistering, erosion, and fading away appeared in the application of high temperature infrared radiation coating. Analyses showed that thermal stress formed during the heating process due to the thermal expansion coefficient differential between the coating and the substrate, and volume effect caused by the crystal transferred when the temperature changed, which resulted in the coating crack and exfoliation. The gas produced by the reactions between components and binder or the components themselves during the heating process caused the coating blistering. The EMPA and XRD analyses show that oxides with low melting point in the penetrating area of the substrate may form eutectic with low melting point and produced thermal defects, which leads to the erosion by penetrating to the substrate. The valent changes of Fe2O3 and MnO2 during the heating process cause the volatilization of the oxides or the pulverization of the coatings, resulting in the coating fades away easily at high temperature for a long time.展开更多
The mechanisms occurring when the switched temperature technique is applied, as an accelerated enhanced low dose rate sensitivity (ELDRS) test technique, are investigated in terms of a specially designed gate-contro...The mechanisms occurring when the switched temperature technique is applied, as an accelerated enhanced low dose rate sensitivity (ELDRS) test technique, are investigated in terms of a specially designed gate-controlled lateral PNP transistor (GLPNP) that used to extract the interface traps (Nit) and oxide trapped charges (Not). Electrical characteristics in GLPNP transistors induced by 60Co gamma irradiation are measured in situ as a function of total dose, showing that generation of Nit in the oxide is the primary cause of base current variations for the GLPNP. Based on the analysis of the variations of Nit and Not, with switching the temperature, the properties of accelerated protons release and suppressed protons loss play critical roles in determining the increased Nit formation leading to the base current degradation with dose accumulation. Simultaneously the hydrogen cracking mechanisms responsible for additional protons release are related to the neutralization of Not extending enhanced Nit buildup. In this study the switched temperature irradiation has been employed to conservatively estimate the ELDRS of GLPNP, which provides us with a new insight into the test technique for ELDRS.展开更多
为探索由月球表面特殊光热环境导致的驻人月球科研站围护结构传热过程与地球建筑的差异性,基于月球表面太阳辐射模型,根据有限差分法建立围护结构的传热模型,对影响内表面温度的物性参数、朝向等因素进行模拟分析。结果表明:当防热层、...为探索由月球表面特殊光热环境导致的驻人月球科研站围护结构传热过程与地球建筑的差异性,基于月球表面太阳辐射模型,根据有限差分法建立围护结构的传热模型,对影响内表面温度的物性参数、朝向等因素进行模拟分析。结果表明:当防热层、隔热层和阻气层分别取20 mm Nextel BF-20、240 mm Pyrogel 6650、20 mm Kapton时,水平屋顶内表面温度的波动范围为16.8~22.4℃;厚度和导热系数是影响围护结构传热性能最重要的因素,综合考虑建造成本与隔热性能,应尽量降低围护结构的厚度与导热系数,采用低密度、高比热的材料;内表面的对流换热系数与外表面的发射率直接影响围护结构的边界换热量,可结合不同朝向的辐射特点与热舒适要求,个性化定制具有差异化热惰性和外表面发射率的材料。展开更多
基金Funded by the National Natural Science Foundation of China(Nos.51272195 and 51202175)the Research Funds for the Central Universities(2012-Ia-012,2012-IV-105,2013-ZD-4)
文摘Using high aluminum refractory material as substrate at 1400℃, we studied the connections between several oxides such as Fe203, MnOv CuO, and the formation of defects such as coating crack, exfoliation, blistering, erosion, and fading away appeared in the application of high temperature infrared radiation coating. Analyses showed that thermal stress formed during the heating process due to the thermal expansion coefficient differential between the coating and the substrate, and volume effect caused by the crystal transferred when the temperature changed, which resulted in the coating crack and exfoliation. The gas produced by the reactions between components and binder or the components themselves during the heating process caused the coating blistering. The EMPA and XRD analyses show that oxides with low melting point in the penetrating area of the substrate may form eutectic with low melting point and produced thermal defects, which leads to the erosion by penetrating to the substrate. The valent changes of Fe2O3 and MnO2 during the heating process cause the volatilization of the oxides or the pulverization of the coatings, resulting in the coating fades away easily at high temperature for a long time.
基金Project supported by the National Natural Science Foundation of China(Grant Nos.U1532261 and 1630141)
文摘The mechanisms occurring when the switched temperature technique is applied, as an accelerated enhanced low dose rate sensitivity (ELDRS) test technique, are investigated in terms of a specially designed gate-controlled lateral PNP transistor (GLPNP) that used to extract the interface traps (Nit) and oxide trapped charges (Not). Electrical characteristics in GLPNP transistors induced by 60Co gamma irradiation are measured in situ as a function of total dose, showing that generation of Nit in the oxide is the primary cause of base current variations for the GLPNP. Based on the analysis of the variations of Nit and Not, with switching the temperature, the properties of accelerated protons release and suppressed protons loss play critical roles in determining the increased Nit formation leading to the base current degradation with dose accumulation. Simultaneously the hydrogen cracking mechanisms responsible for additional protons release are related to the neutralization of Not extending enhanced Nit buildup. In this study the switched temperature irradiation has been employed to conservatively estimate the ELDRS of GLPNP, which provides us with a new insight into the test technique for ELDRS.
文摘为探索由月球表面特殊光热环境导致的驻人月球科研站围护结构传热过程与地球建筑的差异性,基于月球表面太阳辐射模型,根据有限差分法建立围护结构的传热模型,对影响内表面温度的物性参数、朝向等因素进行模拟分析。结果表明:当防热层、隔热层和阻气层分别取20 mm Nextel BF-20、240 mm Pyrogel 6650、20 mm Kapton时,水平屋顶内表面温度的波动范围为16.8~22.4℃;厚度和导热系数是影响围护结构传热性能最重要的因素,综合考虑建造成本与隔热性能,应尽量降低围护结构的厚度与导热系数,采用低密度、高比热的材料;内表面的对流换热系数与外表面的发射率直接影响围护结构的边界换热量,可结合不同朝向的辐射特点与热舒适要求,个性化定制具有差异化热惰性和外表面发射率的材料。