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郭志猛, 张瑞珠①, ②, 郭志猛①
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-1年11月30日
本文研究了钛酸锶(SrTiO3)陶瓷固化放射性废物(RAW)的晶体结构和浸出性能,通过试验证明,钛酸锶陶瓷固化体具有较高的密度,浸出率低,化学稳定性高,是固化放射性废物和进行最终地质处置的理想固化体。并展望了钛酸锶陶瓷固化放射性废物的前景。
晶体结构, 钛酸锶陶瓷, 浸出性能, 固化, 放射性废物(, RAW),
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郭志猛, 殷声, 林涛, 果世驹
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-1年11月30日
工厂已能用SHS-离心法生产出均匀质量直径φ800mm的陶瓷内衬钢管。在SHS-重力法中,铝热反应主要受气相反应控制,首次用此法生产出直径φ273mm的陶瓷内衬弯管。(其余由郭补)
陶瓷内衬钢管, SHS-离心法, SHS-重力法, 应用
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【期刊论文】Synthesis of nanosized tungsten powder
郭志猛, Guangfeng Lu, Zhimeng Guo, Ji Luo, Liying Zhang
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-1年11月30日
Nanosized tungsten powder was synthesized by means of different methods and conditions with nanosized WO3 powder; the powder and the intermediate products were characterized using XRD, SEM, TEM, B.E.T and SAXS(X-ray diffracto-spectrometer/Kratky small angle scattering goniometer). It has been shown that nanosized WO3 can be completely reduced to WO2 at 600℃ after 40min, and WO2 can be reduced to W at 700℃ after 90min, moreover, the mean size of W particles is less than 40nm. Furthermore, the process of WO3→WO2→W excelled that of WO3→W in getting stably nanosized tungsten powder with less grain size.
Nano-tungsten powders, Reduce, SAXS
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【期刊论文】Combustion Characteristics of Aluminium-Iron Oxide in SHS-Gravitational Process
郭志猛, Tao Lin, Shiju Guo, Sheng Yin, Zhimeng Guo
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-1年11月30日
The ceramic lined fine pipe, elbow and tapered pipe can be prepared by SHS-gravitational process. In order to get high quality of products, the combustion of aluminium-iron oxide thermite in this process must be under control. The effects of thermite filling density, hole in thermite and inclined angle of pipe on combustion rate were studied to direct to the controlling factor. It shows that the combustion rate decreases with the decrease of filling density. The thermite combusts downwards the pipe much more quickly if there are holes in the thermite. And the combustion rate increases with the increase of the inclined angle of pipe. The experiment results direct to the conclusion that the combustion of thermite is predominantly controlled by gas phase reaction, which appears due to the high temperature of the thermite combustion.
thermite reaction, SHS, chemical synthesis, composites
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