1) lithium molybdate
钼酸锂
1.
It reveals that lithium molybdate induces inhibition effect to carbon steel in lithium bromide,it decreases effectively the corrosion of carbon steel in lithium bromide by adding 0.
采用中和法制备钼酸锂 ,通过静态挂片法研究了钼酸锂对碳钢在溴化锂溶液中缓蚀的作用 ,并通过极化曲线探讨其缓蚀作用的机理 ,用扫描电镜观察形成的表面膜形态 ,用X -射线衍射法对形成的表面膜层结构进行分析 。
2.
The technology of producing lithium molybdate from sodium molybdate is introduced.
介绍了以钼酸钠为原料制备钼酸锂的工艺 ,确定了酸沉、碱溶等主要工序的工艺参数 ,制备出符合Q/JDC- 30 1- 2 0 0 3标准的钼酸锂产
3.
This article describes the effects and problems, working principle and usage of lithium molybdate used as inhibitor for absorption refrigeration machine.
本文介绍了作为吸收式制冷机缓蚀剂的钼酸锂使用效果、使用问题、作用机理和使用方法。
2) lithium molydbate
钼酸锂
1.
The Effect of Lithium molydbate to Corrosion of Carbon Steel in Lithium Bromide Solution;
钼酸锂对碳钢在溴化锂溶液中腐蚀的影响
2.
The composite inhibition effect of lithium molydbate and benzotriazole for carbon steel in lithium bromide solution was evaluated by means of weight loss method.
通过静态挂片法研究了钼酸锂与苯骈三氮唑复配对碳钢的缓蚀作用,通过极化曲线探讨钼酸锂及苯骈三氮唑复配缓蚀作用的机理,并对比了钼酸锂与苯骈三氮唑复配对碳钢在溴化锂溶液和溴化锂制冷机组冷凝水中的缓蚀效果与铬酸锂的缓蚀效果的优劣。
3.
The synergistic inhibition effect of lithium molydbate and benzotriazole for carbon steel in lithium bromide solution was evaluated by means of weight loss methods during immension.
通过静态挂片法研究了钼酸锂与苯并三氮唑对碳钢在溴化锂溶液中缓蚀作用的协同效应,并通过极化曲线评价了钼酸锂与苯并三氮唑复配的缓蚀作用,实验表明钼酸锂与苯并三氮唑对碳钢在溴化锂溶液中的缓蚀作用有一定的协同效应,添加0。
3) molybdic acid
钼酸
1.
Research into preparation of ammonium molybdate by purificating crude molybdic acid;
用粗钼酸制备钼酸铵工艺的研究
2.
The effective recovery new technologies,such as optimum roasting conditions and molybdic acid preparation,etc.
对焙烧最佳条件、钼酸及七钼酸铵制备等问题进行了详实阐述,新工艺具有显著的技术经济效果。
3.
The effective recovery technologies,such as roasting and molybdic acid preparation etc.
从废催化剂中回收钼是利国利民的重要研究课题 ,针对当前回收工作中存在的技术问题进行了认真的探索 ,成功地解决了回收中分离、沉淀等技术难题 ,设计出了较为有效的回收工艺 ,对焙烧条件、钼酸制备等问题进行了全面阐
4) LiFePO4
磷酸铁锂
1.
Well-crystallized and regular lithium iron phosphate(LiFePO4) particles were synthesized via solvothermal reaction in H2O-isopropanol mixture solvents.
采用溶剂热法在H2O和异丙醇的混合溶剂中合成橄榄石结构的磷酸铁锂(LiFePO4)。
2.
The research progress of preparation,modification in LiFePO4 is briefly described.
介绍了磷酸铁锂的结构和电化学性能,重点阐述了具有橄榄石结构的磷酸铁锂正极材料改性的研究进展。
3.
Polypyrrole(PPy)/lithium iron phosphate(LiFePO4) composite was prepared in the in-situ polymerization method.
通过原位聚合方法制备了聚吡咯(PPy)/磷酸铁锂(LiFePO4)复合材料。
5) LiNbO3
铌酸锂
1.
LiNbO3 ultra-fine powders were prepared via a hydrothermal method with LiOH and Nb2O5 as the starting materials.
以LiOH和Nb2O5为原料,用水热法合成了铌酸锂纳米粉体。
2.
The citrate method was adopted to prepare LiNbO3 ferroelectric film.
采用柠檬酸盐法制备铌酸锂铁电薄膜。
3.
We studied the ultraviolet-light-induced absorption coefficient change and their temperature dependence of the dark decay dynamics in the congruent LiNbO3 crystals doped with In3+ of different concentrations.
研究了不同掺杂浓度的掺铟铌酸锂晶体的紫外光致吸收和浅能级缺陷对应的热激活能。
6) lithium zinc phosphate
磷酸锌锂
1.
Study on synthesis of nano-sized lithium zinc phosphate crystal by solid state reaction;
纳米晶粒磷酸锌锂固相反应合成的研究
2.
Study on synthesis and crystallization degree of Cu~(2+)-doped lithium zinc phosphate by solid state reaction;
固相反应合成掺铜磷酸锌锂及其结晶度的研究
3.
Synthesis of Cu~(2+)-doped lithium zinc phosphate via solid state reaction
固相反应合成掺铜磷酸锌锂
补充资料:钼酸锂
分子式:Li2MoO4
分子量:173.82
CAS号:13568-40-6
性质:密度2.66。熔点705°C。水溶性soluble。
分子量:173.82
CAS号:13568-40-6
性质:密度2.66。熔点705°C。水溶性soluble。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条