氢化铝
- 网络AlH;alane;aluminum hydride
氢化铝-
固体推进剂高能燃料三氢化铝
Aluminum Hydride & High Energy Fuel of Solid Propellant
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人造玛瑙填充料氢化铝,是白色粉末状。
Artificial onyx filler aluminum hydride is a white powder .
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综述了三氢化铝晶体形态特征、α-AlH3的分子结构、合成方法及稳定化途径,在固体推进剂中用三氢化铝代替铝粉可使推进剂理论比冲可以增加100N·s/kg以上。
Synthetic method and stabilization of alpha-AlH_3 are reviewed . Introducing AlH_3 instead of aluminum powder in solid propellant . Theoretical specific impulse can be enhanced above 100N · s / kg .
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氢化铝钠合成方法和应用的研究进展
The Research Advances in Synthesis Methods and Application of NaAlH_4
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采用氢化铝锂滴定法测定羟基含量,可达到9%。
The hydroxyl content is more than 9 % .
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α-三氢化铝的热分解动力学
The thermal decomposition kinetics of α - aluminium hydride
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六氟代戊二酮合镍/二异丁基氢化铝催化丙烯线性齐聚的研究
Linear Oligomerization of Propylene with Chelated Nickel Complex Catalyst
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非醚合氢化铝的制备及性质研究
Study of non - solvated aluminum hydrides
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钛催化氢化铝钠的贮氢性能
Hydrogen storage properties of catalyzed sodium alanates
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氢化铝锂还原α,β-不饱和羰基化合物的新反应&一种合成1,3-二醇的简便方法
A Novel Practical Reaction of α,β - Unsaturated Esters and Ketones with Lithium Aluminum Hydride & A Facile Route to 1,3-Diols
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采用皮下注射氢氢化铝亚硒酸钡,研究了牦犊牛缺硒病的防治。
Prevention and treatment of selenium ( Se ) deficiency in yak calves by subcutaneous injection of barium selenite-aluminum hydroxide ( BSAH ) were studied .
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近年由于其优良储氢性能得以被发现,氢化铝钠成为最有前景的络合金属氢化物之一。
More recently , sodium aluminum hydride been considered as one of most promising complex metal hydride , for its excellent performance of hydride storage have been discovered .
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对于酯基的还原通常使用的是氢化铝锂,但有着选择性差,价格昂贵,工业上难以应用的缺点。
Lithium aluminum hydride was commonly used for the reduction of ester , but the shortcomings of poor selectivity and expensive makes it difficult to apply in industries .
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氢化钛-铝混合粉机械合金化研究
Mechanical alloying of titanium hydride and aluminum poder mixtures
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通过对反应条件的改进,以硼氢化钾/三氯化铈代替氢化锂铝,不仅降低了成本,而且简化了操作;
KBH_4 / CeCl_3 was used as reduction reagent replacing LiAlH_4 , which reduced the cost and simplified the experiment process .
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在略高温度下,通过氯化锂和金属钠在氢气氛中的反应,得到了氢化锂和氯化钠的混合物。用通常的Schlesinger法将得到的混合物用于合成氢化铝锂。
A mixture ( LiH + NaCl ) of lithium hydride and sodium chloride was produced by the reaction of lithium chloride and metallic sodium in an atmosphere of hydrogen at slightly elevated temperature and used to synthesize lithium aluminium hydride by the usual Schlesinger method .