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综述了透明AlON陶瓷材料的制备工艺、透光性影响因素、主要应用及研究现状.指出透明AlON陶瓷已经成为各国材料学科领域和军事领域竞相研究的热点,透光性能好的AlON材料的研制和开发是制约我国在该领域发展的核心技术. 相似文献
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稀土离子掺杂氧化镥透明陶瓷材料 总被引:1,自引:0,他引:1
研究以Eu3 为代表的稀土离子掺杂氧化镥(Lu2O3)发光粉体的湿化学制备方法,并在此基础上研制了相应的Lu2O3基透明陶瓷材料.以氨水加碳酸氢铵溶液用作复合沉淀剂成功地制备出低团聚、颗粒类乎球形的高烧结活性Lu2O3基纳米发光粉体.采用Fourier红外光谱、差热-热重-质谱联用、X射线衍射和透射电镜等手段研究了粉体制备过程中的物理化学变化过程.在煅烧后获得Lu2O3粉体的晶粒尺寸为30~40nm,比表面积可达18m2/g.该粉体在无需黏结剂或烧结助剂的条件下,经干压等静压成型后于流动H2气氛下经1850℃,6h常压烧结后,可获得具有良好光学透明性的Eu3 掺杂Lu2O3基(Eu:Lu2O3)陶瓷材料,样品的体积密度达理论密度的99.8%,晶粒尺寸为50~60μm.双面抛光1mm厚的Eu3 :Lu2O3陶瓷样品在可见光波段的直线光学透过率可达80%以上,该样品在紫外激发条件下在610nm波长处产生很强的特征发射谱线,是一类有望在射线探测和X光数字成像领域得到应用的高性能探测材料. 相似文献
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透明氮氧化铝(AlON)陶瓷具有优异的光学、力学、热学综合性能,在国防和商业众多领域内具有广阔的应用前景.本文对AlON陶瓷的性能、合成方法和制备工艺、应用等方面的研究进展进行了综述,并对其未来的研究发展方向进行了展望. 相似文献
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纳米陶瓷材料及其制备与应用 总被引:4,自引:1,他引:4
由于硬度高、耐高温、耐磨损、质量轻和导热性好,陶瓷材料是现代工业三大基本材料之一,但其脆性大、韧性小而限制了在一些特殊领域的应用。纳米材料及技术运用到陶瓷材料中极大地改善了它的应用性能。本文比较了传统陶瓷与纳米陶瓷的优缺点,介绍了纳米陶瓷材料材料的特性和种类,以及制备方法、应用和国内研究现状。 相似文献
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《Ceramics International》2023,49(20):32868-32873
This study introduces transparent MgO ceramics produced via simply vacuum sintering at 1200–1500 °C by optimal incorporation of MgF2 as a sintering additive. The effect of MgF2 content and sintering temperature on the densification process, optical, and thermal properties of MgO ceramics is presented with emphasis on its function as a sintering aid and adverse effect of MgF2 evaporation in the condition of high MgF2 content or high sintering temperature. MgO ceramic with 1.0 mol% MgF2 sintered at 1300 °C exhibits the highest relative density of 99.95% with average grain size of 17.46 μm. The in-line transmittance attains 60% at 1000 nm and >80% in the infrared range (3.8–6.8 μm), without absorption bands originated from the carbon contamination. The corresponding room-temperature thermal conductivity reaches 47.25 W/(m∙K). These results demonstrate that MgF2 is an outstanding sintering additive for the preparation transparent MgO ceramics. 相似文献
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Jun Wang Kaijie Ning Jian Zhang Dewei Luo Jie Ma Danlei Yin Dingyuan Tang Ling Bing Kong 《Journal of the American Ceramic Society》2016,99(6):1935-1942
This paper reports on the influence of rapid rate sintering (RRS) on densification and microstructure evolution of yttria transparent ceramics by using vacuum sintering. The presence of temperature gradient has been confirmed during the RRS process. The higher the heating rate (HR), the larger the temperature gradient in the samples would be. By using RRS, e.g., HR = 40°C/min, the samples could be densified very fast to a relative density of 99.6%. However, these samples could not be further densified, due to the presence of difference in densification caused by a heating rate‐induced temperature gradient. By using a two‐step RRS with an intermediate‐temperature thermal treatment, this problem has been successfully addressed. The intermediate‐temperature treatment allowed for the particle neck growth, so that effective thermal conductivity of the compacts was increased greatly. Therefore, the temperature gradient and differentiate densification were effectively prevented. Samples sintered using the two‐step RRS process could be fully densified and excellent in‐line optical transmittance was achieved. It is believed this strategy is applicable to other transparent ceramics, as well as other engineering ceramics. 相似文献