氢化锂

氢化锂在不同环境条件下的力学性能

Tensile property of LiH under different environment condition

高压下氢化锂晶体中的离子间力与结合能公式的原子分子设计

The atomic and molecular design for the repulsive potential function between atoms and formula of cohesive energy in LiH crystal at high prssure

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 .

氢化锂材料车削表面粗糙度预测模型的建立

The Establishment of Surface Roughness Model for Lithium Hydride Workpiece Turning

切削条件对氢化锂零件表面粗糙度的影响

Influence of Cutting Parameter on Surface Roughness of Lithium Hydride Part

氢化锂含氚量变化之数学模型的测定

Determination of Variation Mathematic Model of Tritium in Lithium Deuteride - tritide

氢化锂是氢气的一个来源；

Lithium hydride is used as a source of hydrogen ;

温和条件下氢化锂的催化合成

Catalytic synthesis of lithium hydride under mild conditions

乙炔与氢化锂单体和二聚体加成反应中的HOMO-HOMO相互作用

The HOMO - HOMO Interactions in the Additions of HLi and its Dimer to Acetylene

本文提出了一种温和条件下合成氢化锂的方法。

A method for the catalytic synthesis of lithium hydride under mild conditions is presented .

本文简要介绍了硼氢化锂的几种不同制备方法，并对其进行了分析比较。

In this paper , some different methods of preparing lithium borohydride were introduced and compared briefly .

硼氢化锂的制备方法

Preparation of Lithium Borohydride

用前线分子轨道分析乙炔与氢化锂单体和二聚体加成反应的过渡态。

The FMO analysis was performed on the transition states of the additions of HLi and its dimer to acetylene .

文章主要介绍了运用回归分析方法建立氢化锂车削表面粗糙度预测模型的方法。

It is introduced that establishing surface roughness prediction model of lithium hydride turning by regression analysis method in this paper .

对氢化锂晶体进行研究时，我们得到Li~+和H~-离子之间排斥作用势函数，结果表明文献〔1〕中提出的离子压缩效应具有客观性。

When analysing LiH crystal , we obtained the repulsive potential function between Li + and H - , and the results show that the compression effect of ions mentioned in literature [ 1 ] seems to exist .

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 % .

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

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 .

全固态电变色器件制作工艺复杂，氢化（或锂化）工艺是制备WO3电变色器件的关键技术。

The fabrication of all solid state electrochromic device ( EC ) is very complex , but hydrogenation or lithiation of EC materials is also a key to preparing the same .

氢化处理铸造镁锂系合金

Research on the Hydrogenating Treatment of the Cast Mg-Li Alloy

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 .