1)Lithium[英]['l?θi?m][美]['l?θ??m]金属锂
1.Influence of pressure and impurity hydrogen on the elastic property of metal lithium;压力及杂质氢对金属锂弹性特性的影响
2.Study on Thermal Decomposition of Li_2CO_3 in Production of Lithium by VacuumThermal Reduction Process真空热还原制取金属锂过程中Li_2CO_3热分解的研究
3.The elastic constants of bulk lithium with hexagonal close-packed(hcp) structure under high pressures have been calculated,by using Density Functional Theory and the relationship between stress and strain.采用密度泛涵理论第一原理赝势方法,利用应力和应变的关系计算了压力下六角密堆结构金属锂的弹性常数。
英文短句/例句
1.Study on Lithium Metal Anode Material of High Specific Energy Lithium Secondary Battery;高比能量二次锂电池中金属锂负极材料的研究
2.Investigation on the lithium battery with zero corrosion in liquid solution零腐蚀的水溶液体系金属锂电池研究
3.Theoretical Study on Reaction Mechanism of Metal Li and LiH at H_2O Atmosphere;金属锂及氢化锂在水气氛中反应机理的理论研究
4.Pressure Effects on the Band Structure of BCC Lithium with Substitutional Hydrogen Defect压力下替位氢对金属锂能带结构的影响
5.Optimum Study of Productive Technology for Metal Lithium by 2000A Electrolysis Trough;2000安培电解槽制取金属锂优化工艺研究
6.Study on Tritium Inventory in the Liquid Metal Lithium-Lead Blanket Module of Fusion Reactors;聚变堆液态金属锂铅包层模块氚分析研究
7.Research on Fabrication of Nanobatteries and Charging Method for Lithium Rechargeable Batteries;纳米电池组装与金属锂电池充电方式研究
8.Study on Thermal Decomposition of Li_2CO_3 in Production of Lithium by VacuumThermal Reduction Process真空热还原制取金属锂过程中Li_2CO_3热分解的研究
9.Optimization of Technological Conditions in Reduction of Lithium by Ferro-silicon Alloy以硅铁为还原剂制取金属锂的工艺优化
10.The Resources and Utilization of Aluminium,Magnesium and Lithium in Qinghai Province;青海省铝、镁、锂金属资源开发利用现状
11.Preparation of Polyoxometalates Containing Lithium and Their Conductivity含锂多金属氧酸盐的制备及其导电性
12.The Study of Hydrogen Absorption and Desorption Effect of Sevsral Metal and Their Lithium Alloys几种金属及其锂合金的吸放氢效应研究
13.Characteristics of Vapor/Plasmas during YAG Laser Welding of 5A90 Al-Li AlloyYAG激光焊接5A90铝锂合金金属蒸汽/等离子体特征
14.Influencing Factor of Lithium Extraction in Lithium Ion Sieve Precursor from Ocean Polymetallic Noddle大洋多金属结核制备锂离子筛前驱体中锂脱出的影响因素
15.any of the monovalent metals of group I of the periodic table (lithium or sodium or potassium or rubidium or cesium or francium).周期表中I族的任何单价金属(锂、钠、钾、铷、铯和钫)。
16.Research on Some Sb or Bi-Based Intermetallic Compounds as Anode Material of Li-ion Batteries;某些锑、铋基金属间化合物的嵌锂特性研究
17.Preparation and Lithium Storage Properties of Sn-based Compound Nanoparticles;锡基金属间化合物纳米粒子的制备及储锂性能
18.Study on the Modification of Spinel Lithium Manganese by Rare Earth Element Doping;尖晶石锰酸锂掺杂稀土金属改性的研究
相关短句/例句
lithium metal金属锂
1.The verification test was carried out in a vacuum silicothermic reducing furnace to obtain the condensed lithium metal.设计真空硅热还原炉进行了验证试验,得到冷凝金属锂。
2.Lithium metal is a kind of new resource and material which is of huge market potential,and it is faced with good development opportunity,it introduced the production method of lithium metal as well as applied field and domestic production status.金属锂作为一种蕴含巨大市场潜力的新能源和新材料,当前正面临着良好的发展机遇。
3)Metal Lithium金属锂
1.Twenty-one kinds of micro elments in metal lithium were determined by inductively coupled plasma atomic emission spectrometry,including Al,Au,Ba,Ca,Co,Cr,Cu,Fe,In,Mg,Mn,Mo,Ni,Pb,Pd,Pt,Sn,Ti,V,Y and Zn.应用电感耦合等离子体原子发射光谱法测定金属锂中铝、金、钡、钙、钴、铬、铜、铁、铟、镁、锰、钼、镍、铅、钯、铂、锡、钛、钒、钇和锌21种微量元素。
4)metallic lithium金属锂
1.It is conventionally difficult to obtain metallic lithium with ultra low Na/K content,to which the molten salt extraction is therefore suggested as a pioneer process to remove Na/K and relevant experiments.针对传统锂工业中很难得到低钠和钾的金属锂,首次提出了溶盐萃取法,并进行了萃取过程的热力学分析和探索性实验研究。
5)lithium metal,metallic liquor金属锂<冶>
6)high-purity lithium高纯金属锂
延伸阅读
金属锂国标编号 43001 CAS号 7439-93-2 分子式 Li分子量 6.94银白色软金属;蒸汽压 0.13kPa(23℃);熔点 179℃;沸点1317℃;溶解性:不溶于烃类,溶于硝酸、液氨;密度:相对密度(水=1)0.53;稳定性:不稳定;危险标记 10(遇湿易燃物品);主要用途:用作还原剂与氢化剂、合金硬化剂、铜和铜合金中脱氧剂,也用于有机合成 2.对环境的影响:一、健康危害侵入途径:吸入、食入。健康危害:本品具有强烈腐蚀性,眼和皮肤接触引起刺激或灼伤。二、毒理学资料及环境行为急性毒性:LD501000mg/kg(小鼠腑腔内)危险特性:化学反应活性很高,加热至熔融状态时能在空气中自燃,但粉尘能在常温下燃烧。遇水或酸发生反应放出氢气及热量,能引起燃烧。燃烧后即成熔融物流散,并放出白色浓烟,使火场全部荫蔽。金属锂能在空气、氧气、氮气或二氧化碳中燃烧,特别是有氧化锂或氮化锂存在下极易燃烧。锂在高温下能与混凝土或其它含湿的材料猛烈的应,反应放出的氢气与空气能形成爆炸性混合物。与卤素、硫、磷等发生剧烈的化学反应,引起燃烧。燃烧(分解)产物:氧化锂。3.现场应急监测方法: 4.实验室监测方法:等离子体光谱法原子吸收法《水和废水标准检验法》15版5.环境标准:美国(1976)农灌水标准 2.5mg/L6.应急处理处置方法:一、泄漏应急处理隔离泄漏污染区,限制出入。切断火源。建议应急处理人员戴自给式呼吸器,穿防毒服。不要直接接触泄漏物。小量泄漏:收入金属容器并保存在煤油或液体石蜡中。大量泄漏:与有关技术部门联系,确定清除方法。二、防护措施呼吸系统防护:一般不需要特殊防护,但建议特殊情况下,佩戴自吸过滤式防尘口罩。眼睛防护:戴化学安全防护眼镜。身体防护:穿化学防护服。手防护:戴橡胶手套。其它:工作现场严禁吸烟。注意个人清洁卫生。三、急救措施皮肤接触:立即脱去被污染的衣着,用大量流动清水冲洗,至少15分钟。就医。眼睛接触:立即提起眼睑,用大量流动清水或生理盐水彻底冲洗至少15分钟。就医。吸入:迅速脱离现场至空气新鲜处。保持呼吸道通畅。如呼吸困难,给输氧。如呼吸停止,立即进行人工呼吸。就医。食入:误服者用水漱口,给饮牛奶或蛋清。就医。灭火方法:禁止使用水、泡沫或卤化物灭火剂。用二氧化碳与干粉也无效。最好的灭火方法是用干燥石墨粉和干砂闷熄火苗,隔绝空气。
